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package sun.reflect.generics.scope;
import java.lang.reflect.GenericDeclaration;
import java.lang.reflect.TypeVariable;
Abstract superclass for lazy scope objects, used when building factories for generic information repositories. The type parameter D
represents the type of reflective object whose scope this class is representing. To subclass this, all one needs to do is implement computeEnclosingScope
and the subclass' constructor.
/**
* Abstract superclass for lazy scope objects, used when building
* factories for generic information repositories.
* The type parameter {@code D} represents the type of reflective
* object whose scope this class is representing.
* <p> To subclass this, all one needs to do is implement
* {@code computeEnclosingScope} and the subclass' constructor.
*/
public abstract class AbstractScope<D extends GenericDeclaration>
implements Scope {
private final D recvr; // the declaration whose scope this instance represents
The enclosing scope of this scope. Lazily initialized. /** The enclosing scope of this scope. Lazily initialized. */
private volatile Scope enclosingScope;
Constructor. Takes a reflective object whose scope the newly
constructed instance will represent.
Params: - decl – - A generic declaration whose scope the newly
constructed instance will represent
/**
* Constructor. Takes a reflective object whose scope the newly
* constructed instance will represent.
* @param decl - A generic declaration whose scope the newly
* constructed instance will represent
*/
protected AbstractScope(D decl){ recvr = decl;}
Accessor for the receiver - the object whose scope this Scope
object represents. Returns: The object whose scope this Scope
object represents
/**
* Accessor for the receiver - the object whose scope this {@code Scope}
* object represents.
* @return The object whose scope this {@code Scope} object represents
*/
protected D getRecvr() {return recvr;}
This method must be implemented by any concrete subclass.
It must return the enclosing scope of this scope. If this scope
is a top-level scope, an instance of DummyScope must be returned.
Returns: The enclosing scope of this scope
/** This method must be implemented by any concrete subclass.
* It must return the enclosing scope of this scope. If this scope
* is a top-level scope, an instance of DummyScope must be returned.
* @return The enclosing scope of this scope
*/
protected abstract Scope computeEnclosingScope();
Accessor for the enclosing scope, which is computed lazily and cached.
Returns: the enclosing scope
/**
* Accessor for the enclosing scope, which is computed lazily and cached.
* @return the enclosing scope
*/
protected Scope getEnclosingScope() {
Scope value = enclosingScope;
if (value == null) {
value = computeEnclosingScope();
enclosingScope = value;
}
return value;
}
Lookup a type variable in the scope, using its name. Returns null if
no type variable with this name is declared in this scope or any of its
surrounding scopes.
Params: - name – - the name of the type variable being looked up
Returns: the requested type variable, if found
/**
* Lookup a type variable in the scope, using its name. Returns null if
* no type variable with this name is declared in this scope or any of its
* surrounding scopes.
* @param name - the name of the type variable being looked up
* @return the requested type variable, if found
*/
public TypeVariable<?> lookup(String name) {
TypeVariable<?>[] tas = getRecvr().getTypeParameters();
for (TypeVariable<?> tv : tas) {
if (tv.getName().equals(name)) {return tv;}
}
return getEnclosingScope().lookup(name);
}
}