Java Code Examples for com.sun.tools.javac.code.Symbol#getRawTypeAttributes()

The following examples show how to use com.sun.tools.javac.code.Symbol#getRawTypeAttributes() . You can vote up the ones you like or vote down the ones you don't like, and go to the original project or source file by following the links above each example. You may check out the related API usage on the sidebar.
Example 1
Source File: LambdaToMethod.java    From jdk8u60 with GNU General Public License v2.0 4 votes vote down vote up
/**
 * Translate a lambda into a method to be inserted into the class.
 * Then replace the lambda site with an invokedynamic call of to lambda
 * meta-factory, which will use the lambda method.
 * @param tree
 */
@Override
public void visitLambda(JCLambda tree) {
    LambdaTranslationContext localContext = (LambdaTranslationContext)context;
    MethodSymbol sym = localContext.translatedSym;
    MethodType lambdaType = (MethodType) sym.type;

    {
        Symbol owner = localContext.owner;
        ListBuffer<Attribute.TypeCompound> ownerTypeAnnos = new ListBuffer<Attribute.TypeCompound>();
        ListBuffer<Attribute.TypeCompound> lambdaTypeAnnos = new ListBuffer<Attribute.TypeCompound>();

        for (Attribute.TypeCompound tc : owner.getRawTypeAttributes()) {
            if (tc.position.onLambda == tree) {
                lambdaTypeAnnos.append(tc);
            } else {
                ownerTypeAnnos.append(tc);
            }
        }
        if (lambdaTypeAnnos.nonEmpty()) {
            owner.setTypeAttributes(ownerTypeAnnos.toList());
            sym.setTypeAttributes(lambdaTypeAnnos.toList());
        }
    }

    //create the method declaration hoisting the lambda body
    JCMethodDecl lambdaDecl = make.MethodDef(make.Modifiers(sym.flags_field),
            sym.name,
            make.QualIdent(lambdaType.getReturnType().tsym),
            List.<JCTypeParameter>nil(),
            localContext.syntheticParams,
            lambdaType.getThrownTypes() == null ?
                List.<JCExpression>nil() :
                make.Types(lambdaType.getThrownTypes()),
            null,
            null);
    lambdaDecl.sym = sym;
    lambdaDecl.type = lambdaType;

    //translate lambda body
    //As the lambda body is translated, all references to lambda locals,
    //captured variables, enclosing members are adjusted accordingly
    //to refer to the static method parameters (rather than i.e. acessing to
    //captured members directly).
    lambdaDecl.body = translate(makeLambdaBody(tree, lambdaDecl));

    //Add the method to the list of methods to be added to this class.
    kInfo.addMethod(lambdaDecl);

    //now that we have generated a method for the lambda expression,
    //we can translate the lambda into a method reference pointing to the newly
    //created method.
    //
    //Note that we need to adjust the method handle so that it will match the
    //signature of the SAM descriptor - this means that the method reference
    //should be added the following synthetic arguments:
    //
    // * the "this" argument if it is an instance method
    // * enclosing locals captured by the lambda expression

    ListBuffer<JCExpression> syntheticInits = new ListBuffer<>();

    if (localContext.methodReferenceReceiver != null) {
        syntheticInits.append(localContext.methodReferenceReceiver);
    } else if (!sym.isStatic()) {
        syntheticInits.append(makeThis(
                sym.owner.enclClass().asType(),
                localContext.owner.enclClass()));
    }

    //add captured locals
    for (Symbol fv : localContext.getSymbolMap(CAPTURED_VAR).keySet()) {
        if (fv != localContext.self) {
            JCTree captured_local = make.Ident(fv).setType(fv.type);
            syntheticInits.append((JCExpression) captured_local);
        }
    }

    //then, determine the arguments to the indy call
    List<JCExpression> indy_args = translate(syntheticInits.toList(), localContext.prev);

    //build a sam instance using an indy call to the meta-factory
    int refKind = referenceKind(sym);

    //convert to an invokedynamic call
    result = makeMetafactoryIndyCall(context, refKind, sym, indy_args);
}
 
Example 2
Source File: LambdaToMethod.java    From hottub with GNU General Public License v2.0 4 votes vote down vote up
/**
 * Translate a lambda into a method to be inserted into the class.
 * Then replace the lambda site with an invokedynamic call of to lambda
 * meta-factory, which will use the lambda method.
 * @param tree
 */
@Override
public void visitLambda(JCLambda tree) {
    LambdaTranslationContext localContext = (LambdaTranslationContext)context;
    MethodSymbol sym = localContext.translatedSym;
    MethodType lambdaType = (MethodType) sym.type;

    {
        Symbol owner = localContext.owner;
        ListBuffer<Attribute.TypeCompound> ownerTypeAnnos = new ListBuffer<Attribute.TypeCompound>();
        ListBuffer<Attribute.TypeCompound> lambdaTypeAnnos = new ListBuffer<Attribute.TypeCompound>();

        for (Attribute.TypeCompound tc : owner.getRawTypeAttributes()) {
            if (tc.position.onLambda == tree) {
                lambdaTypeAnnos.append(tc);
            } else {
                ownerTypeAnnos.append(tc);
            }
        }
        if (lambdaTypeAnnos.nonEmpty()) {
            owner.setTypeAttributes(ownerTypeAnnos.toList());
            sym.setTypeAttributes(lambdaTypeAnnos.toList());
        }
    }

    //create the method declaration hoisting the lambda body
    JCMethodDecl lambdaDecl = make.MethodDef(make.Modifiers(sym.flags_field),
            sym.name,
            make.QualIdent(lambdaType.getReturnType().tsym),
            List.<JCTypeParameter>nil(),
            localContext.syntheticParams,
            lambdaType.getThrownTypes() == null ?
                List.<JCExpression>nil() :
                make.Types(lambdaType.getThrownTypes()),
            null,
            null);
    lambdaDecl.sym = sym;
    lambdaDecl.type = lambdaType;

    //translate lambda body
    //As the lambda body is translated, all references to lambda locals,
    //captured variables, enclosing members are adjusted accordingly
    //to refer to the static method parameters (rather than i.e. acessing to
    //captured members directly).
    lambdaDecl.body = translate(makeLambdaBody(tree, lambdaDecl));

    //Add the method to the list of methods to be added to this class.
    kInfo.addMethod(lambdaDecl);

    //now that we have generated a method for the lambda expression,
    //we can translate the lambda into a method reference pointing to the newly
    //created method.
    //
    //Note that we need to adjust the method handle so that it will match the
    //signature of the SAM descriptor - this means that the method reference
    //should be added the following synthetic arguments:
    //
    // * the "this" argument if it is an instance method
    // * enclosing locals captured by the lambda expression

    ListBuffer<JCExpression> syntheticInits = new ListBuffer<>();

    if (localContext.methodReferenceReceiver != null) {
        syntheticInits.append(localContext.methodReferenceReceiver);
    } else if (!sym.isStatic()) {
        syntheticInits.append(makeThis(
                sym.owner.enclClass().asType(),
                localContext.owner.enclClass()));
    }

    //add captured locals
    for (Symbol fv : localContext.getSymbolMap(CAPTURED_VAR).keySet()) {
        if (fv != localContext.self) {
            JCTree captured_local = make.Ident(fv).setType(fv.type);
            syntheticInits.append((JCExpression) captured_local);
        }
    }

    //then, determine the arguments to the indy call
    List<JCExpression> indy_args = translate(syntheticInits.toList(), localContext.prev);

    //build a sam instance using an indy call to the meta-factory
    int refKind = referenceKind(sym);

    //convert to an invokedynamic call
    result = makeMetafactoryIndyCall(context, refKind, sym, indy_args);
}
 
Example 3
Source File: LambdaToMethod.java    From openjdk-8-source with GNU General Public License v2.0 4 votes vote down vote up
/**
 * Translate a lambda into a method to be inserted into the class.
 * Then replace the lambda site with an invokedynamic call of to lambda
 * meta-factory, which will use the lambda method.
 * @param tree
 */
@Override
public void visitLambda(JCLambda tree) {
    LambdaTranslationContext localContext = (LambdaTranslationContext)context;
    MethodSymbol sym = (MethodSymbol)localContext.translatedSym;
    MethodType lambdaType = (MethodType) sym.type;

    {
        Symbol owner = localContext.owner;
        ListBuffer<Attribute.TypeCompound> ownerTypeAnnos = new ListBuffer<Attribute.TypeCompound>();
        ListBuffer<Attribute.TypeCompound> lambdaTypeAnnos = new ListBuffer<Attribute.TypeCompound>();

        for (Attribute.TypeCompound tc : owner.getRawTypeAttributes()) {
            if (tc.position.onLambda == tree) {
                lambdaTypeAnnos.append(tc);
            } else {
                ownerTypeAnnos.append(tc);
            }
        }
        if (lambdaTypeAnnos.nonEmpty()) {
            owner.setTypeAttributes(ownerTypeAnnos.toList());
            sym.setTypeAttributes(lambdaTypeAnnos.toList());
        }
    }

    //create the method declaration hoisting the lambda body
    JCMethodDecl lambdaDecl = make.MethodDef(make.Modifiers(sym.flags_field),
            sym.name,
            make.QualIdent(lambdaType.getReturnType().tsym),
            List.<JCTypeParameter>nil(),
            localContext.syntheticParams,
            lambdaType.getThrownTypes() == null ?
                List.<JCExpression>nil() :
                make.Types(lambdaType.getThrownTypes()),
            null,
            null);
    lambdaDecl.sym = sym;
    lambdaDecl.type = lambdaType;

    //translate lambda body
    //As the lambda body is translated, all references to lambda locals,
    //captured variables, enclosing members are adjusted accordingly
    //to refer to the static method parameters (rather than i.e. acessing to
    //captured members directly).
    lambdaDecl.body = translate(makeLambdaBody(tree, lambdaDecl));

    //Add the method to the list of methods to be added to this class.
    kInfo.addMethod(lambdaDecl);

    //now that we have generated a method for the lambda expression,
    //we can translate the lambda into a method reference pointing to the newly
    //created method.
    //
    //Note that we need to adjust the method handle so that it will match the
    //signature of the SAM descriptor - this means that the method reference
    //should be added the following synthetic arguments:
    //
    // * the "this" argument if it is an instance method
    // * enclosing locals captured by the lambda expression

    ListBuffer<JCExpression> syntheticInits = new ListBuffer<>();

    if (!sym.isStatic()) {
        syntheticInits.append(makeThis(
                sym.owner.enclClass().asType(),
                localContext.owner.enclClass()));
    }

    //add captured locals
    for (Symbol fv : localContext.getSymbolMap(CAPTURED_VAR).keySet()) {
        if (fv != localContext.self) {
            JCTree captured_local = make.Ident(fv).setType(fv.type);
            syntheticInits.append((JCExpression) captured_local);
        }
    }

    //then, determine the arguments to the indy call
    List<JCExpression> indy_args = translate(syntheticInits.toList(), localContext.prev);

    //build a sam instance using an indy call to the meta-factory
    int refKind = referenceKind(sym);

    //convert to an invokedynamic call
    result = makeMetafactoryIndyCall(context, refKind, sym, indy_args);
}
 
Example 4
Source File: LambdaToMethod.java    From openjdk-8 with GNU General Public License v2.0 4 votes vote down vote up
/**
 * Translate a lambda into a method to be inserted into the class.
 * Then replace the lambda site with an invokedynamic call of to lambda
 * meta-factory, which will use the lambda method.
 * @param tree
 */
@Override
public void visitLambda(JCLambda tree) {
    LambdaTranslationContext localContext = (LambdaTranslationContext)context;
    MethodSymbol sym = (MethodSymbol)localContext.translatedSym;
    MethodType lambdaType = (MethodType) sym.type;

    {
        Symbol owner = localContext.owner;
        ListBuffer<Attribute.TypeCompound> ownerTypeAnnos = new ListBuffer<Attribute.TypeCompound>();
        ListBuffer<Attribute.TypeCompound> lambdaTypeAnnos = new ListBuffer<Attribute.TypeCompound>();

        for (Attribute.TypeCompound tc : owner.getRawTypeAttributes()) {
            if (tc.position.onLambda == tree) {
                lambdaTypeAnnos.append(tc);
            } else {
                ownerTypeAnnos.append(tc);
            }
        }
        if (lambdaTypeAnnos.nonEmpty()) {
            owner.setTypeAttributes(ownerTypeAnnos.toList());
            sym.setTypeAttributes(lambdaTypeAnnos.toList());
        }
    }

    //create the method declaration hoisting the lambda body
    JCMethodDecl lambdaDecl = make.MethodDef(make.Modifiers(sym.flags_field),
            sym.name,
            make.QualIdent(lambdaType.getReturnType().tsym),
            List.<JCTypeParameter>nil(),
            localContext.syntheticParams,
            lambdaType.getThrownTypes() == null ?
                List.<JCExpression>nil() :
                make.Types(lambdaType.getThrownTypes()),
            null,
            null);
    lambdaDecl.sym = sym;
    lambdaDecl.type = lambdaType;

    //translate lambda body
    //As the lambda body is translated, all references to lambda locals,
    //captured variables, enclosing members are adjusted accordingly
    //to refer to the static method parameters (rather than i.e. acessing to
    //captured members directly).
    lambdaDecl.body = translate(makeLambdaBody(tree, lambdaDecl));

    //Add the method to the list of methods to be added to this class.
    kInfo.addMethod(lambdaDecl);

    //now that we have generated a method for the lambda expression,
    //we can translate the lambda into a method reference pointing to the newly
    //created method.
    //
    //Note that we need to adjust the method handle so that it will match the
    //signature of the SAM descriptor - this means that the method reference
    //should be added the following synthetic arguments:
    //
    // * the "this" argument if it is an instance method
    // * enclosing locals captured by the lambda expression

    ListBuffer<JCExpression> syntheticInits = new ListBuffer<>();

    if (!sym.isStatic()) {
        syntheticInits.append(makeThis(
                sym.owner.enclClass().asType(),
                localContext.owner.enclClass()));
    }

    //add captured locals
    for (Symbol fv : localContext.getSymbolMap(CAPTURED_VAR).keySet()) {
        if (fv != localContext.self) {
            JCTree captured_local = make.Ident(fv).setType(fv.type);
            syntheticInits.append((JCExpression) captured_local);
        }
    }

    //then, determine the arguments to the indy call
    List<JCExpression> indy_args = translate(syntheticInits.toList(), localContext.prev);

    //build a sam instance using an indy call to the meta-factory
    int refKind = referenceKind(sym);

    //convert to an invokedynamic call
    result = makeMetafactoryIndyCall(context, refKind, sym, indy_args);
}