Ejemplo n.º 1
0
  public static void loadReference(String name, WriterController controller) {
    CompileStack compileStack = controller.getCompileStack();
    MethodVisitor mv = controller.getMethodVisitor();
    ClassNode classNode = controller.getClassNode();
    AsmClassGenerator acg = controller.getAcg();

    // compileStack.containsVariable(name) means to ask if the variable is already declared
    // compileStack.getScope().isReferencedClassVariable(name) means to ask if the variable is a
    // field
    // If it is no field and is not yet declared, then it is either a closure shared variable or
    // an already declared variable.
    if (!compileStack.containsVariable(name)
        && compileStack.getScope().isReferencedClassVariable(name)) {
      acg.visitFieldExpression(new FieldExpression(classNode.getDeclaredField(name)));
    } else {
      BytecodeVariable v =
          compileStack.getVariable(name, !classNodeUsesReferences(controller.getClassNode()));
      if (v == null) {
        // variable is not on stack because we are
        // inside a nested Closure and this variable
        // was not used before
        // then load it from the Closure field
        FieldNode field = classNode.getDeclaredField(name);
        mv.visitVarInsn(ALOAD, 0);
        mv.visitFieldInsn(
            GETFIELD,
            controller.getInternalClassName(),
            name,
            BytecodeHelper.getTypeDescription(field.getType()));
      } else {
        mv.visitVarInsn(ALOAD, v.getIndex());
      }
      controller.getOperandStack().push(ClassHelper.REFERENCE_TYPE);
    }
  }
  protected void evaluateArrayAssignmentWithOperator(
      String method, BinaryExpression expression, BinaryExpression leftBinExpr) {
    CompileStack compileStack = getController().getCompileStack();
    AsmClassGenerator acg = getController().getAcg();
    OperandStack os = getController().getOperandStack();

    // e.g. x[a] += b
    // to avoid loading x and a twice we transform the expression to use
    // ExpressionAsVariableSlot
    // -> subscript=a, receiver=x, receiver[subscript]+b, =, receiver[subscript]
    // -> subscript=a, receiver=x, receiver#getAt(subscript)#plus(b), =, receiver#putAt(subscript)
    // -> subscript=a, receiver=x, receiver#putAt(subscript, receiver#getAt(subscript)#plus(b))
    // the result of x[a] += b is x[a]+b, thus:
    // -> subscript=a, receiver=x, receiver#putAt(subscript, ret=receiver#getAt(subscript)#plus(b)),
    // ret
    ExpressionAsVariableSlot subscript =
        new ExpressionAsVariableSlot(controller, leftBinExpr.getRightExpression(), "subscript");
    ExpressionAsVariableSlot receiver =
        new ExpressionAsVariableSlot(controller, leftBinExpr.getLeftExpression(), "receiver");
    MethodCallExpression getAt =
        new MethodCallExpression(receiver, "getAt", new ArgumentListExpression(subscript));
    MethodCallExpression operation =
        new MethodCallExpression(getAt, method, expression.getRightExpression());
    ExpressionAsVariableSlot ret = new ExpressionAsVariableSlot(controller, operation, "ret");
    MethodCallExpression putAt =
        new MethodCallExpression(receiver, "putAt", new ArgumentListExpression(subscript, ret));

    putAt.visit(acg);
    os.pop();
    os.load(ret.getType(), ret.getIndex());

    compileStack.removeVar(ret.getIndex());
    compileStack.removeVar(subscript.getIndex());
    compileStack.removeVar(receiver.getIndex());
  }
Ejemplo n.º 3
0
  public void loadOrStoreVariable(BytecodeVariable variable, boolean useReferenceDirectly) {
    CompileStack compileStack = controller.getCompileStack();

    if (compileStack.isLHS()) {
      storeVar(variable);
    } else {
      MethodVisitor mv = controller.getMethodVisitor();
      int idx = variable.getIndex();
      ClassNode type = variable.getType();

      if (variable.isHolder()) {
        mv.visitVarInsn(ALOAD, idx);
        if (!useReferenceDirectly) {
          mv.visitMethodInsn(
              INVOKEVIRTUAL, "groovy/lang/Reference", "get", "()Ljava/lang/Object;", false);
          BytecodeHelper.doCast(mv, type);
          push(type);
        } else {
          push(ClassHelper.REFERENCE_TYPE);
        }
      } else {
        load(type, idx);
      }
    }
  }
  private void evaluateElvisOperatorExpression(ElvisOperatorExpression expression) {
    MethodVisitor mv = controller.getMethodVisitor();
    CompileStack compileStack = controller.getCompileStack();
    OperandStack operandStack = controller.getOperandStack();
    TypeChooser typeChooser = controller.getTypeChooser();

    Expression boolPart = expression.getBooleanExpression().getExpression();
    Expression falsePart = expression.getFalseExpression();

    ClassNode truePartType = typeChooser.resolveType(boolPart, controller.getClassNode());
    ClassNode falsePartType = typeChooser.resolveType(falsePart, controller.getClassNode());
    ClassNode common = WideningCategories.lowestUpperBound(truePartType, falsePartType);

    // x?:y is equal to x?x:y, which evals to
    //      var t=x; boolean(t)?t:y
    // first we load x, dup it, convert the dupped to boolean, then
    // jump depending on the value. For true we are done, for false we
    // have to load y, thus we first remove x and then load y.
    // But since x and y may have different stack lengths, this cannot work
    // Thus we have to have to do the following:
    // Be X the type of x, Y the type of y and S the common supertype of
    // X and Y, then we have to see x?:y as
    //      var t=x;boolean(t)?S(t):S(y)
    // so we load x, dup it, store the value in a local variable (t), then
    // do boolean conversion. In the true part load t and cast it to S,
    // in the false part load y and cast y to S

    // load x, dup it, store one in $t and cast the remaining one to boolean
    int mark = operandStack.getStackLength();
    boolPart.visit(controller.getAcg());
    operandStack.dup();
    if (ClassHelper.isPrimitiveType(truePartType)
        && !ClassHelper.isPrimitiveType(operandStack.getTopOperand())) {
      truePartType = ClassHelper.getWrapper(truePartType);
    }
    int retValueId = compileStack.defineTemporaryVariable("$t", truePartType, true);
    operandStack.castToBool(mark, true);

    Label l0 = operandStack.jump(IFEQ);
    // true part: load $t and cast to S
    operandStack.load(truePartType, retValueId);
    operandStack.doGroovyCast(common);
    Label l1 = new Label();
    mv.visitJumpInsn(GOTO, l1);

    // false part: load false expression and cast to S
    mv.visitLabel(l0);
    falsePart.visit(controller.getAcg());
    operandStack.doGroovyCast(common);

    // finish and cleanup
    mv.visitLabel(l1);
    compileStack.removeVar(retValueId);
    controller.getOperandStack().replace(common, 2);
  }
  protected void evaluateBinaryExpression(String message, BinaryExpression binExp) {
    CompileStack compileStack = controller.getCompileStack();

    Expression receiver = binExp.getLeftExpression();
    Expression arguments = binExp.getRightExpression();

    // ensure VariableArguments are read, not stored
    compileStack.pushLHS(false);
    controller.getInvocationWriter().makeSingleArgumentCall(receiver, message, arguments);
    compileStack.popLHS();
  }
Ejemplo n.º 6
0
  public void writeClosure(ClosureExpression expression) {
    CompileStack compileStack = controller.getCompileStack();
    MethodVisitor mv = controller.getMethodVisitor();
    ClassNode classNode = controller.getClassNode();
    AsmClassGenerator acg = controller.getAcg();

    // generate closure as public class to make sure it can be properly invoked by classes of the
    // Groovy runtime without circumventing JVM access checks (see CachedMethod for example).
    ClassNode closureClass = getOrAddClosureClass(expression, ACC_PUBLIC);
    String closureClassinternalName = BytecodeHelper.getClassInternalName(closureClass);
    List constructors = closureClass.getDeclaredConstructors();
    ConstructorNode node = (ConstructorNode) constructors.get(0);

    Parameter[] localVariableParams = node.getParameters();

    mv.visitTypeInsn(NEW, closureClassinternalName);
    mv.visitInsn(DUP);
    if (controller.isStaticMethod() || compileStack.isInSpecialConstructorCall()) {
      (new ClassExpression(classNode)).visit(acg);
      (new ClassExpression(controller.getOutermostClass())).visit(acg);
    } else {
      mv.visitVarInsn(ALOAD, 0);
      controller.getOperandStack().push(ClassHelper.OBJECT_TYPE);
      loadThis();
    }

    // now let's load the various parameters we're passing
    // we start at index 2 because the first variable we pass
    // is the owner instance and at this point it is already
    // on the stack
    for (int i = 2; i < localVariableParams.length; i++) {
      Parameter param = localVariableParams[i];
      String name = param.getName();
      loadReference(name, controller);
      if (param.getNodeMetaData(ClosureWriter.UseExistingReference.class) == null) {
        param.setNodeMetaData(ClosureWriter.UseExistingReference.class, Boolean.TRUE);
      }
    }

    // we may need to pass in some other constructors
    // cv.visitMethodInsn(INVOKESPECIAL, innerClassinternalName, "<init>", prototype + ")V");
    mv.visitMethodInsn(
        INVOKESPECIAL,
        closureClassinternalName,
        "<init>",
        BytecodeHelper.getMethodDescriptor(ClassHelper.VOID_TYPE, localVariableParams),
        false);
    controller.getOperandStack().replace(ClassHelper.CLOSURE_TYPE, localVariableParams.length);
  }
  private void execMethodAndStoreForSubscriptOperator(
      int op,
      String method,
      Expression expression,
      VariableSlotLoader usesSubscript,
      Expression orig) {
    final OperandStack operandStack = controller.getOperandStack();
    writePostOrPrefixMethod(op, method, expression, orig);

    // we need special code for arrays to store the result (like for a[1]++)
    if (usesSubscript != null) {
      CompileStack compileStack = controller.getCompileStack();
      BinaryExpression be = (BinaryExpression) expression;

      ClassNode methodResultType = operandStack.getTopOperand();
      final int resultIdx =
          compileStack.defineTemporaryVariable("postfix_" + method, methodResultType, true);
      BytecodeExpression methodResultLoader =
          new VariableSlotLoader(methodResultType, resultIdx, operandStack);

      // execute the assignment, this will leave the right side
      // (here the method call result) on the stack
      assignToArray(be, be.getLeftExpression(), usesSubscript, methodResultLoader);

      compileStack.removeVar(resultIdx);
    }
    // here we handle a.b++ and a++
    else if (expression instanceof VariableExpression
        || expression instanceof FieldExpression
        || expression instanceof PropertyExpression) {
      operandStack.dup();
      controller.getCompileStack().pushLHS(true);
      expression.visit(controller.getAcg());
      controller.getCompileStack().popLHS();
    }
    // other cases don't need storing, so nothing to be done for them
  }
  private void evaluatePostfixMethod(
      int op, String method, Expression expression, Expression orig) {
    CompileStack compileStack = controller.getCompileStack();
    final OperandStack operandStack = controller.getOperandStack();

    // load Expressions
    VariableSlotLoader usesSubscript = loadWithSubscript(expression);

    // save copy for later
    operandStack.dup();
    ClassNode expressionType = operandStack.getTopOperand();
    int tempIdx = compileStack.defineTemporaryVariable("postfix_" + method, expressionType, true);

    // execute Method
    execMethodAndStoreForSubscriptOperator(op, method, expression, usesSubscript, orig);

    // remove the result of the method call
    operandStack.pop();

    // reload saved value
    operandStack.load(expressionType, tempIdx);
    compileStack.removeVar(tempIdx);
    if (usesSubscript != null) compileStack.removeVar(usesSubscript.getIndex());
  }
  public void evaluateEqual(BinaryExpression expression, boolean defineVariable) {
    AsmClassGenerator acg = controller.getAcg();
    CompileStack compileStack = controller.getCompileStack();
    OperandStack operandStack = controller.getOperandStack();
    Expression rightExpression = expression.getRightExpression();
    Expression leftExpression = expression.getLeftExpression();
    ClassNode lhsType =
        controller.getTypeChooser().resolveType(leftExpression, controller.getClassNode());

    if (defineVariable
        && rightExpression instanceof EmptyExpression
        && !(leftExpression instanceof TupleExpression)) {
      VariableExpression ve = (VariableExpression) leftExpression;
      BytecodeVariable var =
          compileStack.defineVariable(
              ve, controller.getTypeChooser().resolveType(ve, controller.getClassNode()), false);
      operandStack.loadOrStoreVariable(var, false);
      return;
    }

    // let's evaluate the RHS and store the result
    ClassNode rhsType;
    if (rightExpression instanceof ListExpression && lhsType.isArray()) {
      ListExpression list = (ListExpression) rightExpression;
      ArrayExpression array =
          new ArrayExpression(lhsType.getComponentType(), list.getExpressions());
      array.setSourcePosition(list);
      array.visit(acg);
    } else if (rightExpression instanceof EmptyExpression) {
      rhsType = leftExpression.getType();
      loadInitValue(rhsType);
    } else {
      rightExpression.visit(acg);
    }
    rhsType = operandStack.getTopOperand();

    boolean directAssignment = defineVariable && !(leftExpression instanceof TupleExpression);
    int rhsValueId;
    if (directAssignment) {
      VariableExpression var = (VariableExpression) leftExpression;
      if (var.isClosureSharedVariable() && ClassHelper.isPrimitiveType(rhsType)) {
        // GROOVY-5570: if a closure shared variable is a primitive type, it must be boxed
        rhsType = ClassHelper.getWrapper(rhsType);
        operandStack.box();
      }

      // ensure we try to unbox null to cause a runtime NPE in case we assign
      // null to a primitive typed variable, even if it is used only in boxed
      // form as it is closure shared
      if (var.isClosureSharedVariable()
          && ClassHelper.isPrimitiveType(var.getOriginType())
          && isNull(rightExpression)) {
        operandStack.doGroovyCast(var.getOriginType());
        // these two are never reached in bytecode and only there
        // to avoid verifyerrors and compiler infrastructure hazzle
        operandStack.box();
        operandStack.doGroovyCast(lhsType);
      }
      // normal type transformation
      if (!ClassHelper.isPrimitiveType(lhsType) && isNull(rightExpression)) {
        operandStack.replace(lhsType);
      } else {
        operandStack.doGroovyCast(lhsType);
      }
      rhsType = lhsType;
      rhsValueId = compileStack.defineVariable(var, lhsType, true).getIndex();
    } else {
      rhsValueId = compileStack.defineTemporaryVariable("$rhs", rhsType, true);
    }
    // TODO: if rhs is VariableSlotLoader already, then skip crating a new one
    BytecodeExpression rhsValueLoader = new VariableSlotLoader(rhsType, rhsValueId, operandStack);

    // assignment for subscript
    if (leftExpression instanceof BinaryExpression) {
      BinaryExpression leftBinExpr = (BinaryExpression) leftExpression;
      if (leftBinExpr.getOperation().getType() == Types.LEFT_SQUARE_BRACKET) {
        assignToArray(
            expression,
            leftBinExpr.getLeftExpression(),
            leftBinExpr.getRightExpression(),
            rhsValueLoader);
      }
      compileStack.removeVar(rhsValueId);
      return;
    }

    compileStack.pushLHS(true);

    // multiple declaration
    if (leftExpression instanceof TupleExpression) {
      TupleExpression tuple = (TupleExpression) leftExpression;
      int i = 0;
      for (Expression e : tuple.getExpressions()) {
        VariableExpression var = (VariableExpression) e;
        MethodCallExpression call =
            new MethodCallExpression(
                rhsValueLoader, "getAt", new ArgumentListExpression(new ConstantExpression(i)));
        call.visit(acg);
        i++;
        if (defineVariable) {
          operandStack.doGroovyCast(var);
          compileStack.defineVariable(var, true);
          operandStack.remove(1);
        } else {
          acg.visitVariableExpression(var);
        }
      }
    }
    // single declaration
    else if (defineVariable) {
      rhsValueLoader.visit(acg);
      operandStack.remove(1);
      compileStack.popLHS();
      return;
    }
    // normal assignment
    else {
      int mark = operandStack.getStackLength();
      // to leave a copy of the rightExpression value on the stack after the assignment.
      rhsValueLoader.visit(acg);
      TypeChooser typeChooser = controller.getTypeChooser();
      ClassNode targetType = typeChooser.resolveType(leftExpression, controller.getClassNode());
      operandStack.doGroovyCast(targetType);
      leftExpression.visit(acg);
      operandStack.remove(operandStack.getStackLength() - mark);
    }
    compileStack.popLHS();

    // return value of assignment
    rhsValueLoader.visit(acg);
    compileStack.removeVar(rhsValueId);
  }