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authorReinier Zwitserloot <reinier@zwitserloot.com>2010-12-24 18:03:10 +0100
committerReinier Zwitserloot <reinier@zwitserloot.com>2010-12-24 18:03:10 +0100
commit2f99cb62a1dce67b663314382e3d49e9b99f87ab (patch)
tree1252468b56485fb4a1b7351de5551c24643e4c4e /src/core
parentcbaaedf32c028adbf1e050930428d732ea7be0b3 (diff)
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Added detection of type var naming conflicts to eclipse's @Delegate support.
Diffstat (limited to 'src/core')
-rw-r--r--src/core/lombok/javac/handlers/HandleDelegate.java91
1 files changed, 49 insertions, 42 deletions
diff --git a/src/core/lombok/javac/handlers/HandleDelegate.java b/src/core/lombok/javac/handlers/HandleDelegate.java
index 8338736e..0c3dfd6b 100644
--- a/src/core/lombok/javac/handlers/HandleDelegate.java
+++ b/src/core/lombok/javac/handlers/HandleDelegate.java
@@ -165,54 +165,61 @@ public class HandleDelegate implements JavacAnnotationHandler<Delegate> {
Set<String> conflicted;
}
- private JCMethodDecl createDelegateMethod(MethodSig sig, JavacNode annotation, Name delegateFieldName) throws TypeNotConvertibleException, CantMakeDelegates {
- /** public <T, U, ...> ReturnType methodName(ParamType1 name1, ParamType2 name2, ...) throws T1, T2, ... {
- * (return) delegate.<T, U>methodName(name1, name2);
- * }
- */
-
- // There's a rare but problematic case if a delegate method has its own type variables, and the delegated type does too, and the method uses both.
- // If for example the delegated type has <E>, and the method has <T>, but in our class we have a <T> at the class level, then we have two different
- // type variables both named 'T'. We detect this situation and error out asking the programmer to rename their type variable.
+ /**
+ * There's a rare but problematic case if a delegate method has its own type variables, and the delegated type does too, and the method uses both.
+ * If for example the delegated type has {@code <E>}, and the method has {@code <T>}, but in our class we have a {@code <T>} at the class level, then we have two different
+ * type variables both named {@code T}. We detect this situation and error out asking the programmer to rename their type variable.
+ *
+ * @throws CantMakeDelegates If there's a conflict. Conflict list is in ex.conflicted.
+ */
+ private void checkConflictOfTypeVarNames(MethodSig sig, JavacNode annotation) throws CantMakeDelegates {
// As first step, we check if there's a conflict between the delegate method's type vars and our own class.
- if (!sig.elem.getTypeParameters().isEmpty()) {
- Set<String> usedInOurType = new HashSet<String>();
-
- JavacNode enclosingType = annotation;
- while (enclosingType != null) {
- if (enclosingType.getKind() == Kind.TYPE) {
- List<JCTypeParameter> typarams = ((JCClassDecl)enclosingType.get()).typarams;
- if (typarams != null) for (JCTypeParameter param : typarams) {
- if (param.name != null) usedInOurType.add(param.name.toString());
- }
- }
- enclosingType = enclosingType.up();
- }
-
- Set<String> usedInMethodSig = new HashSet<String>();
- for (TypeParameterElement param : sig.elem.getTypeParameters()) {
- usedInMethodSig.add(param.getSimpleName().toString());
- }
-
- usedInMethodSig.retainAll(usedInOurType);
- if (!usedInMethodSig.isEmpty()) {
- // We might be delegating a List<T>, and we are making method <T> toArray(). A conflict is possible.
- // But only if the toArray method also uses type vars from its class, otherwise we're only shadowing,
- // which is okay as we'll add a @SuppressWarnings.
- FindTypeVarScanner scanner = new FindTypeVarScanner();
- sig.elem.asType().accept(scanner, null);
- Set<String> names = new HashSet<String>(scanner.getTypeVariables());
- names.removeAll(usedInMethodSig);
- if (!names.isEmpty()) {
- // We have a confirmed conflict. We could dig deeper as this may still be a false alarm, but its already an exceedingly rare case.
- CantMakeDelegates cmd = new CantMakeDelegates();
- cmd.conflicted = usedInMethodSig;
- throw cmd;
+ if (sig.elem.getTypeParameters().isEmpty()) return;
+ Set<String> usedInOurType = new HashSet<String>();
+
+ JavacNode enclosingType = annotation;
+ while (enclosingType != null) {
+ if (enclosingType.getKind() == Kind.TYPE) {
+ List<JCTypeParameter> typarams = ((JCClassDecl)enclosingType.get()).typarams;
+ if (typarams != null) for (JCTypeParameter param : typarams) {
+ if (param.name != null) usedInOurType.add(param.name.toString());
}
}
+ enclosingType = enclosingType.up();
+ }
+
+ Set<String> usedInMethodSig = new HashSet<String>();
+ for (TypeParameterElement param : sig.elem.getTypeParameters()) {
+ usedInMethodSig.add(param.getSimpleName().toString());
}
+ usedInMethodSig.retainAll(usedInOurType);
+ if (usedInMethodSig.isEmpty()) return;
+
+ // We might be delegating a List<T>, and we are making method <T> toArray(). A conflict is possible.
+ // But only if the toArray method also uses type vars from its class, otherwise we're only shadowing,
+ // which is okay as we'll add a @SuppressWarnings.
+ FindTypeVarScanner scanner = new FindTypeVarScanner();
+ sig.elem.asType().accept(scanner, null);
+ Set<String> names = new HashSet<String>(scanner.getTypeVariables());
+ names.removeAll(usedInMethodSig);
+ if (!names.isEmpty()) {
+ // We have a confirmed conflict. We could dig deeper as this may still be a false alarm, but its already an exceedingly rare case.
+ CantMakeDelegates cmd = new CantMakeDelegates();
+ cmd.conflicted = usedInMethodSig;
+ throw cmd;
+ }
+ }
+
+ private JCMethodDecl createDelegateMethod(MethodSig sig, JavacNode annotation, Name delegateFieldName) throws TypeNotConvertibleException, CantMakeDelegates {
+ /* public <T, U, ...> ReturnType methodName(ParamType1 name1, ParamType2 name2, ...) throws T1, T2, ... {
+ * (return) delegate.<T, U>methodName(name1, name2);
+ * }
+ */
+
+ checkConflictOfTypeVarNames(sig, annotation);
+
TreeMaker maker = annotation.getTreeMaker();
com.sun.tools.javac.util.List<JCAnnotation> annotations;