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/* *******************************************************************
* Copyright (c) 2005 Contributors.
* All rights reserved.
* This program and the accompanying materials are made available
* under the terms of the Eclipse Public License v 2.0
* which accompanies this distribution and is available at
* https://www.eclipse.org/org/documents/epl-2.0/EPL-2.0.txt
*
* Contributors:
* Adrian Colyer Initial implementation
* ******************************************************************/
package org.aspectj.weaver.bcel;
import java.util.HashMap;
import java.util.Map;
import org.aspectj.util.GenericSignature;
import org.aspectj.util.GenericSignature.SimpleClassTypeSignature;
import org.aspectj.weaver.BoundedReferenceType;
import org.aspectj.weaver.ReferenceType;
import org.aspectj.weaver.ResolvedType;
import org.aspectj.weaver.TypeFactory;
import org.aspectj.weaver.TypeVariable;
import org.aspectj.weaver.TypeVariableReferenceType;
import org.aspectj.weaver.UnresolvedType;
import org.aspectj.weaver.World;
import org.aspectj.weaver.tools.Trace;
import org.aspectj.weaver.tools.TraceFactory;
/**
* A utility class that assists in unpacking constituent parts of generic signature attributes and returning their equivalents in
* UnresolvedType world.
*/
public class BcelGenericSignatureToTypeXConverter {
private static Trace trace = TraceFactory.getTraceFactory().getTrace(BcelGenericSignatureToTypeXConverter.class);
public static ResolvedType classTypeSignature2TypeX(GenericSignature.ClassTypeSignature aClassTypeSignature,
GenericSignature.FormalTypeParameter[] typeParams, World world) throws GenericSignatureFormatException {
Map typeMap = new HashMap<>();
ResolvedType ret = classTypeSignature2TypeX(aClassTypeSignature, typeParams, world, typeMap);
fixUpCircularDependencies(ret, typeMap);
return ret;
}
private static ResolvedType classTypeSignature2TypeX(GenericSignature.ClassTypeSignature aClassTypeSignature,
GenericSignature.FormalTypeParameter[] typeParams, World world,
Map inProgressTypeVariableResolutions)
throws GenericSignatureFormatException {
// class type sig consists of an outer type, and zero or more nested types
// the fully qualified name is outer-type.nested-type1.nested-type2....
// each type in the hierarchy may have type arguments
// first build the 'raw type' signature
StringBuilder sig = new StringBuilder();
sig.append(aClassTypeSignature.outerType.identifier.replace(';', ' ').trim());
for (int i = 0; i < aClassTypeSignature.nestedTypes.length; i++) {
sig.append("$");
sig.append(aClassTypeSignature.nestedTypes[i].identifier.replace(';', ' ').trim());
}
sig.append(";");
// now look for any type parameters.
// I *think* we only need to worry about the 'right-most' type...
SimpleClassTypeSignature innerType = aClassTypeSignature.outerType;
if (aClassTypeSignature.nestedTypes.length > 0) {
innerType = aClassTypeSignature.nestedTypes[aClassTypeSignature.nestedTypes.length - 1];
}
if (innerType.typeArguments.length > 0) {
// we have to create a parameterized type
// type arguments may be array types, class types, or typevariable types
ResolvedType theBaseType = UnresolvedType.forSignature(sig.toString()).resolve(world);
// Sometimes we may find that when the code is being load-time woven that the types have changed.
// Perhaps an old form of a library jar is being used - this can mean we discover right here
// that a type is not parameterizable (is that a word?). I think in these cases it is ok to
// just return with what we know (the base type). (see pr152848)
if (!(theBaseType.isGenericType() || theBaseType.isRawType())) {
if (trace.isTraceEnabled()) {
trace.event("classTypeSignature2TypeX: this type is not a generic type:", null, new Object[] { theBaseType });
}
return theBaseType;
}
ResolvedType[] typeArgumentTypes = new ResolvedType[innerType.typeArguments.length];
for (int i = 0; i < typeArgumentTypes.length; i++) {
typeArgumentTypes[i] = typeArgument2TypeX(innerType.typeArguments[i], typeParams, world,
inProgressTypeVariableResolutions);
}
return TypeFactory.createParameterizedType(theBaseType, typeArgumentTypes, world);
// world.resolve(UnresolvedType.forParameterizedTypes(
// UnresolvedType.forSignature(sig.toString()).resolve(world),
// typeArgumentTypes));
} else {
// we have a non-parameterized type
return world.resolve(UnresolvedType.forSignature(sig.toString()));
}
}
public static ResolvedType fieldTypeSignature2TypeX(GenericSignature.FieldTypeSignature aFieldTypeSignature,
GenericSignature.FormalTypeParameter[] typeParams, World world) throws GenericSignatureFormatException {
Map typeMap = new HashMap<>();
ResolvedType ret = fieldTypeSignature2TypeX(aFieldTypeSignature, typeParams, world, typeMap);
fixUpCircularDependencies(ret, typeMap);
return ret;
}
private static ResolvedType fieldTypeSignature2TypeX(GenericSignature.FieldTypeSignature aFieldTypeSignature,
GenericSignature.FormalTypeParameter[] typeParams, World world,
Map inProgressTypeVariableResolutions)
throws GenericSignatureFormatException {
if (aFieldTypeSignature.isClassTypeSignature()) {
return classTypeSignature2TypeX((GenericSignature.ClassTypeSignature) aFieldTypeSignature, typeParams, world,
inProgressTypeVariableResolutions);
} else if (aFieldTypeSignature.isArrayTypeSignature()) {
int dims = 0;
GenericSignature.TypeSignature ats = aFieldTypeSignature;
while (ats instanceof GenericSignature.ArrayTypeSignature) {
dims++;
ats = ((GenericSignature.ArrayTypeSignature) ats).typeSig;
}
return world.resolve(UnresolvedType.makeArray(
typeSignature2TypeX(ats, typeParams, world, inProgressTypeVariableResolutions), dims));
} else if (aFieldTypeSignature.isTypeVariableSignature()) {
ResolvedType rtx = typeVariableSignature2TypeX((GenericSignature.TypeVariableSignature) aFieldTypeSignature,
typeParams, world, inProgressTypeVariableResolutions);
return rtx;
} else {
throw new GenericSignatureFormatException("Cant understand field type signature: " + aFieldTypeSignature);
}
}
public static TypeVariable formalTypeParameter2TypeVariable(GenericSignature.FormalTypeParameter aFormalTypeParameter,
GenericSignature.FormalTypeParameter[] typeParams, World world) throws GenericSignatureFormatException {
Map typeMap = new HashMap<>();
return formalTypeParameter2TypeVariable(aFormalTypeParameter, typeParams, world, typeMap);
}
private static TypeVariable formalTypeParameter2TypeVariable(GenericSignature.FormalTypeParameter aFormalTypeParameter,
GenericSignature.FormalTypeParameter[] typeParams, World world,
Map inProgressTypeVariableResolutions)
throws GenericSignatureFormatException {
UnresolvedType upperBound = fieldTypeSignature2TypeX(aFormalTypeParameter.classBound, typeParams, world,
inProgressTypeVariableResolutions);
UnresolvedType[] ifBounds = new UnresolvedType[aFormalTypeParameter.interfaceBounds.length];
for (int i = 0; i < ifBounds.length; i++) {
ifBounds[i] = fieldTypeSignature2TypeX(aFormalTypeParameter.interfaceBounds[i], typeParams, world,
inProgressTypeVariableResolutions);
}
return new TypeVariable(aFormalTypeParameter.identifier, upperBound, ifBounds);
}
private static ResolvedType typeArgument2TypeX(GenericSignature.TypeArgument aTypeArgument,
GenericSignature.FormalTypeParameter[] typeParams, World world,
Map inProgressTypeVariableResolutions)
throws GenericSignatureFormatException {
if (aTypeArgument.isWildcard) {
return UnresolvedType.SOMETHING.resolve(world);
}
if (aTypeArgument.isMinus) {
UnresolvedType bound = fieldTypeSignature2TypeX(aTypeArgument.signature, typeParams, world,
inProgressTypeVariableResolutions);
ResolvedType resolvedBound = world.resolve(bound);
if (resolvedBound.isMissing()) {
world.getLint().cantFindType.signal("Unable to find type (for bound): " + resolvedBound.getName(), null);
resolvedBound = world.resolve(UnresolvedType.OBJECT);
}
ReferenceType rBound = (ReferenceType) resolvedBound;
return new BoundedReferenceType(rBound, false, world);
} else if (aTypeArgument.isPlus) {
UnresolvedType bound = fieldTypeSignature2TypeX(aTypeArgument.signature, typeParams, world,
inProgressTypeVariableResolutions);
ResolvedType resolvedBound = world.resolve(bound);
if (resolvedBound.isMissing()) {
world.getLint().cantFindType.signal("Unable to find type (for bound): " + resolvedBound.getName(), null);
resolvedBound = world.resolve(UnresolvedType.OBJECT);
}
ReferenceType rBound = (ReferenceType) resolvedBound;
return new BoundedReferenceType(rBound, true, world);
} else {
return fieldTypeSignature2TypeX(aTypeArgument.signature, typeParams, world, inProgressTypeVariableResolutions);
}
}
public static ResolvedType typeSignature2TypeX(GenericSignature.TypeSignature aTypeSig,
GenericSignature.FormalTypeParameter[] typeParams, World world) throws GenericSignatureFormatException {
Map typeMap = new HashMap<>();
ResolvedType ret = typeSignature2TypeX(aTypeSig, typeParams, world, typeMap);
fixUpCircularDependencies(ret, typeMap);
return ret;
}
private static ResolvedType typeSignature2TypeX(GenericSignature.TypeSignature aTypeSig,
GenericSignature.FormalTypeParameter[] typeParams, World world,
Map inProgressTypeVariableResolutions)
throws GenericSignatureFormatException {
if (aTypeSig.isBaseType()) {
return world.resolve(UnresolvedType.forSignature(((GenericSignature.BaseTypeSignature) aTypeSig).toString()));
} else {
return fieldTypeSignature2TypeX((GenericSignature.FieldTypeSignature) aTypeSig, typeParams, world,
inProgressTypeVariableResolutions);
}
}
private static ResolvedType typeVariableSignature2TypeX(GenericSignature.TypeVariableSignature aTypeVarSig,
GenericSignature.FormalTypeParameter[] typeParams, World world,
Map inProgressTypeVariableResolutions)
throws GenericSignatureFormatException {
GenericSignature.FormalTypeParameter typeVarBounds = null;
for (GenericSignature.FormalTypeParameter typeParam : typeParams) {
if (typeParam.identifier.equals(aTypeVarSig.typeVariableName)) {
typeVarBounds = typeParam;
break;
}
}
if (typeVarBounds == null) {
// blowing up here breaks the situation with ITDs where the type variable is mentioned in the
// declaring type and used somewhere in the signature. Temporary change to allow it to return just a
// 'dumb' typevariablereference.
return new TypeVariableReferenceType(new TypeVariable(aTypeVarSig.typeVariableName), world);
// throw new GenericSignatureFormatException("Undeclared type variable in signature: " + aTypeVarSig.typeVariableName);
}
if (inProgressTypeVariableResolutions.containsKey(typeVarBounds)) {
return inProgressTypeVariableResolutions.get(typeVarBounds);
}
inProgressTypeVariableResolutions.put(typeVarBounds, new FTPHolder(typeVarBounds, world));
ReferenceType ret = new TypeVariableReferenceType(formalTypeParameter2TypeVariable(typeVarBounds, typeParams, world,
inProgressTypeVariableResolutions), world);
inProgressTypeVariableResolutions.put(typeVarBounds, ret);
return ret;
}
private static void fixUpCircularDependencies(ResolvedType aTypeX,
Map typeVariableResolutions) {
if (!(aTypeX instanceof ReferenceType)) {
return;
}
ReferenceType rt = (ReferenceType) aTypeX;
TypeVariable[] typeVars = rt.getTypeVariables();
if (typeVars != null) {
for (TypeVariable typeVar : typeVars) {
if (typeVar.getUpperBound() instanceof FTPHolder) {
GenericSignature.FormalTypeParameter key = ((FTPHolder) typeVar.getUpperBound()).ftpToBeSubstituted;
typeVar.setUpperBound(typeVariableResolutions.get(key));
}
}
}
}
private static class FTPHolder extends ReferenceType {
public GenericSignature.FormalTypeParameter ftpToBeSubstituted;
public FTPHolder(GenericSignature.FormalTypeParameter ftp, World world) {
super("Ljava/lang/Object;", world);
this.ftpToBeSubstituted = ftp;
}
public String toString() {
return "placeholder for TypeVariable of " + ftpToBeSubstituted.toString();
}
public ResolvedType resolve(World world) {
return this;
}
public boolean isCacheable() {
return false;
}
}
public static class GenericSignatureFormatException extends Exception {
public GenericSignatureFormatException(String explanation) {
super(explanation);
}
}
}
