Examples with NonWideningParam org.eclipse.ceylon.compiler.java.codegen.MethodDefinitionBuilder.NonWideningParam used on opensource projects

Example 1 with NonWideningParam

use of org.eclipse.ceylon.compiler.java.codegen.MethodDefinitionBuilder.NonWideningParam in project ceylon by eclipse.

the class ClassTransformer method makeDelegateToCompanion.

/**
 * Generates a method which delegates to the companion instance $Foo$impl
 */
private MethodDefinitionBuilder makeDelegateToCompanion(Interface iface, Reference typedMember, Type currentType, final long mods, final java.util.List<TypeParameter> typeParameters, final java.util.List<java.util.List<Type>> producedTypeParameterBounds, final Type methodType, final String methodName, final java.util.List<Parameter> parameters, boolean typeErased, final String targetMethodName, Parameter defaultedParam, boolean includeBody) {
    final MethodDefinitionBuilder concreteWrapper = MethodDefinitionBuilder.systemMethod(gen(), methodName);
    concreteWrapper.modifiers(mods);
    concreteWrapper.ignoreModelAnnotations();
    if ((mods & PRIVATE) == 0) {
        concreteWrapper.isOverride(true);
    }
    if (typeParameters != null) {
        concreteWrapper.reifiedTypeParametersFromModel(typeParameters);
    }
    Iterator<java.util.List<Type>> iterator = producedTypeParameterBounds.iterator();
    if (typeParameters != null) {
        for (TypeParameter tp : typeParameters) {
            concreteWrapper.typeParameter(tp, iterator.next());
        }
    }
    boolean explicitReturn = false;
    Declaration member = (defaultedParam != null ? typedMember.getTypedParameter(defaultedParam) : typedMember).getDeclaration();
    Type returnType = null;
    if (!isAnything(methodType) || ((member instanceof Function || member instanceof Value) && !Decl.isUnboxedVoid(member)) || (member instanceof Function && Strategy.useBoxedVoid((Function) member))) {
        explicitReturn = true;
        if (CodegenUtil.isHashAttribute(member)) {
            // delegates for hash attributes are int
            concreteWrapper.resultType(new TransformedType(make().Type(syms().intType)));
            returnType = typedMember.getType();
        } else if (typedMember instanceof TypedReference && defaultedParam == null) {
            TypedReference typedRef = (TypedReference) typedMember;
            // This is very much like for method refinement: if the supertype is erased -> go raw.
            // Except for some reason we only need to do it with multiple inheritance with different type
            // arguments, so let's not go overboard
            int flags = 0;
            if (CodegenUtil.hasTypeErased((TypedDeclaration) member.getRefinedDeclaration()) || CodegenUtil.hasTypeErased((TypedDeclaration) member) && isInheritedTwiceWithDifferentTypeArguments(currentType, iface)) {
                flags |= AbstractTransformer.JT_RAW;
            }
            concreteWrapper.resultTypeNonWidening(currentType, typedRef, typedMember.getType(), flags);
            // FIXME: this is redundant with what we computed in the previous line in concreteWrapper.resultTypeNonWidening
            TypedReference nonWideningTypedRef = gen().nonWideningTypeDecl(typedRef, currentType);
            returnType = gen().nonWideningType(typedRef, nonWideningTypedRef);
        } else if (defaultedParam != null) {
            TypedReference typedParameter = typedMember.getTypedParameter(defaultedParam);
            NonWideningParam nonWideningParam = concreteWrapper.getNonWideningParam(typedParameter, currentType.getDeclaration() instanceof Class ? WideningRules.FOR_MIXIN : WideningRules.NONE);
            returnType = nonWideningParam.nonWideningType;
            if (member instanceof Function)
                returnType = typeFact().getCallableType(returnType);
            concreteWrapper.resultType(new TransformedType(makeJavaType(returnType, nonWideningParam.flags)));
        } else {
            concreteWrapper.resultType(new TransformedType(makeJavaType((Type) typedMember)));
            returnType = (Type) typedMember;
        }
    }
    ListBuffer<JCExpression> arguments = new ListBuffer<JCExpression>();
    if (typeParameters != null) {
        for (TypeParameter tp : typeParameters) {
            arguments.add(naming.makeUnquotedIdent(naming.getTypeArgumentDescriptorName(tp)));
        }
    }
    Declaration declaration = typedMember.getDeclaration();
    if (declaration instanceof Constructor && !Decl.isDefaultConstructor((Constructor) declaration) && defaultedParam == null) {
        concreteWrapper.parameter(makeConstructorNameParameter((Constructor) declaration));
        arguments.add(naming.makeUnquotedIdent(Unfix.$name$));
    }
    int ii = 0;
    for (Parameter param : parameters) {
        Parameter parameter;
        if (declaration instanceof Functional) {
            parameter = ((Functional) declaration).getFirstParameterList().getParameters().get(ii++);
        } else if (declaration instanceof Setter) {
            parameter = ((Setter) declaration).getParameter();
        } else {
            throw BugException.unhandledDeclarationCase(declaration);
        }
        final TypedReference typedParameter = typedMember.getTypedParameter(parameter);
        concreteWrapper.parameter(null, param, typedParameter, null, FINAL, WideningRules.FOR_MIXIN);
        arguments.add(naming.makeName(param.getModel(), Naming.NA_MEMBER | Naming.NA_ALIASED));
    }
    if (includeBody) {
        JCExpression qualifierThis = makeUnquotedIdent(getCompanionFieldName(iface));
        // our impl accessor to get the expected bounds of the qualifying type
        if (explicitReturn) {
            Type javaType = getBestSatisfiedType(currentType, iface);
            Type ceylonType = typedMember.getQualifyingType();
            // don't even bother if the impl accessor is turned to raw because casting it to raw doesn't help
            if (!isTurnedToRaw(ceylonType) && // if it's exactly the same we don't need any cast
            !javaType.isExactly(ceylonType))
                // this will add the proper cast to the impl accessor
                qualifierThis = expressionGen().applyErasureAndBoxing(qualifierThis, currentType, false, true, BoxingStrategy.BOXED, ceylonType, ExpressionTransformer.EXPR_WANTS_COMPANION);
        }
        JCExpression expr = make().Apply(// TODO Type args
        null, makeSelect(qualifierThis, (targetMethodName != null) ? targetMethodName : methodName), arguments.toList());
        if (isUnimplementedMemberClass(currentType, typedMember)) {
            concreteWrapper.body(makeThrowUnresolvedCompilationError(// TODO encapsulate the error message
            "formal member '" + declaration.getName() + "' of '" + iface.getName() + "' not implemented in class hierarchy"));
            current().broken();
        } else if (!explicitReturn) {
            concreteWrapper.body(gen().make().Exec(expr));
        } else {
            // deal with erasure and stuff
            BoxingStrategy boxingStrategy;
            boolean exprBoxed;
            if (member instanceof TypedDeclaration) {
                TypedDeclaration typedDecl = (TypedDeclaration) member;
                exprBoxed = !CodegenUtil.isUnBoxed(typedDecl);
                boxingStrategy = CodegenUtil.getBoxingStrategy(typedDecl);
            } else {
                // must be a class or interface
                exprBoxed = true;
                boxingStrategy = BoxingStrategy.UNBOXED;
            }
            // to force an additional cast
            if (isTurnedToRaw(typedMember.getQualifyingType()) || // in invariant locations
            needsRawCastForMixinSuperCall(iface, methodType) || needsCastForErasedInstantiator(iface, methodName, member))
                typeErased = true;
            expr = gen().expressionGen().applyErasureAndBoxing(expr, methodType, typeErased, exprBoxed, boxingStrategy, returnType, 0);
            concreteWrapper.body(gen().make().Return(expr));
        }
    }
    return concreteWrapper;
}

Example 2 with NonWideningParam

use of org.eclipse.ceylon.compiler.java.codegen.MethodDefinitionBuilder.NonWideningParam in project ceylon by eclipse.

the class ClassTransformer method makeParamDefaultValueMethod.

/**
 * Creates a (possibly abstract) method for retrieving the value for a
 * defaulted parameter
 * @param typeParameterList
 */
MethodDefinitionBuilder makeParamDefaultValueMethod(boolean noBody, Declaration container, Tree.ParameterList params, Tree.Parameter currentParam) {
    at(currentParam);
    Parameter parameter = currentParam.getParameterModel();
    if (!Strategy.hasDefaultParameterValueMethod(parameter)) {
        throw new BugException();
    }
    MethodDefinitionBuilder methodBuilder = MethodDefinitionBuilder.systemMethod(this, Naming.getDefaultedParamMethodName(container, parameter));
    methodBuilder.ignoreModelAnnotations();
    if (container != null && Decl.isAnnotationConstructor(container)) {
        AnnotationInvocation ac = (AnnotationInvocation) ((Function) container).getAnnotationConstructor();
        AnnotationConstructorParameter acp = ac.findConstructorParameter(parameter);
        if (acp != null && acp.getDefaultArgument() != null) {
            methodBuilder.userAnnotations(acp.getDefaultArgument().makeDpmAnnotations(expressionGen()));
        }
    }
    methodBuilder.modifiers(modifierTransformation().defaultParameterMethod(noBody, container));
    if (container instanceof Constructor) {
        copyTypeParameters((Class) container.getContainer(), methodBuilder);
        methodBuilder.reifiedTypeParameters(((Class) container.getContainer()).getTypeParameters());
    } else if (container instanceof Declaration) {
        // make sure reified type parameters are accepted
        copyTypeParameters((Declaration) container, methodBuilder);
        methodBuilder.reifiedTypeParameters(Strategy.getEffectiveTypeParameters(container));
    }
    boolean staticMethod = container != null && Strategy.defaultParameterMethodStatic(container);
    WideningRules wideningRules = !staticMethod && container instanceof Class ? WideningRules.CAN_WIDEN : WideningRules.NONE;
    // Add any of the preceding parameters as parameters to the method
    for (Tree.Parameter p : params.getParameters()) {
        if (p.equals(currentParam)) {
            break;
        }
        at(p);
        methodBuilder.parameter(p, p.getParameterModel(), null, 0, wideningRules);
    }
    // The method's return type is the same as the parameter's type
    NonWideningParam nonWideningParam = methodBuilder.getNonWideningParam(currentParam.getParameterModel().getModel(), wideningRules);
    methodBuilder.resultType(nonWideningParam.nonWideningDecl, nonWideningParam.nonWideningType, nonWideningParam.flags);
    // The implementation of the method
    if (noBody) {
        methodBuilder.noBody();
    } else {
        HasErrorException error = errors().getFirstExpressionErrorAndMarkBrokenness(Decl.getDefaultArgument(currentParam).getExpression());
        if (error != null) {
            methodBuilder.body(this.makeThrowUnresolvedCompilationError(error));
        } else {
            java.util.List<TypeParameter> copiedTypeParameters = null;
            if (container instanceof Generic) {
                copiedTypeParameters = container.getTypeParameters();
                if (copiedTypeParameters != null)
                    addTypeParameterSubstitution(copiedTypeParameters);
            }
            try {
                JCExpression expr = expressionGen().transform(currentParam);
                JCBlock body = at(currentParam).Block(0, List.<JCStatement>of(at(currentParam).Return(expr)));
                methodBuilder.block(body);
            } finally {
                if (copiedTypeParameters != null)
                    popTypeParameterSubstitution();
            }
        }
    }
    return methodBuilder;
}