// version for invocation from LambdaExpression:
 static void createArgumentBindings(
     Argument[] arguments, MethodBinding binding, MethodScope scope) {
   boolean useTypeAnnotations = scope.environment().usesNullTypeAnnotations();
   if (arguments != null && binding != null) {
     for (int i = 0, length = arguments.length; i < length; i++) {
       Argument argument = arguments[i];
       binding.parameters[i] = argument.createBinding(scope, binding.parameters[i]);
       if (useTypeAnnotations) continue; // no business with SE7 null annotations in the 1.8 case.
       // createBinding() has resolved annotations, now transfer nullness info from the argument to
       // the method:
       long argTypeTagBits = (argument.binding.tagBits & TagBits.AnnotationNullMASK);
       if (argTypeTagBits != 0) {
         if (binding.parameterNonNullness == null) {
           binding.parameterNonNullness = new Boolean[arguments.length];
           binding.tagBits |= TagBits.IsNullnessKnown;
         }
         binding.parameterNonNullness[i] =
             Boolean.valueOf(argTypeTagBits == TagBits.AnnotationNonNull);
       }
     }
   }
 }
Ejemplo n.º 2
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  public void resolve(BlockScope upperScope) {

    // special scope for secret locals optimization.
    this.scope = new BlockScope(upperScope);

    BlockScope tryScope = new BlockScope(scope);
    BlockScope finallyScope = null;

    if (finallyBlock != null) {
      if (finallyBlock.isEmptyBlock()) {
        if ((finallyBlock.bits & UndocumentedEmptyBlockMASK) != 0) {
          scope
              .problemReporter()
              .undocumentedEmptyBlock(finallyBlock.sourceStart, finallyBlock.sourceEnd);
        }
      } else {
        finallyScope = new BlockScope(scope, false); // don't add it yet to parent scope

        // provision for returning and forcing the finally block to run
        MethodScope methodScope = scope.methodScope();

        // the type does not matter as long as it is not a base type
        if (!upperScope.compilerOptions().inlineJsrBytecode) {
          this.returnAddressVariable =
              new LocalVariableBinding(
                  SecretReturnName, upperScope.getJavaLangObject(), AccDefault, false);
          finallyScope.addLocalVariable(returnAddressVariable);
          this.returnAddressVariable.setConstant(NotAConstant); // not inlinable
        }
        this.subRoutineStartLabel = new Label();

        this.anyExceptionVariable =
            new LocalVariableBinding(
                SecretAnyHandlerName, scope.getJavaLangThrowable(), AccDefault, false);
        finallyScope.addLocalVariable(this.anyExceptionVariable);
        this.anyExceptionVariable.setConstant(NotAConstant); // not inlinable

        if (!methodScope.isInsideInitializer()) {
          MethodBinding methodBinding =
              ((AbstractMethodDeclaration) methodScope.referenceContext).binding;
          if (methodBinding != null) {
            TypeBinding methodReturnType = methodBinding.returnType;
            if (methodReturnType.id != T_void) {
              this.secretReturnValue =
                  new LocalVariableBinding(
                      SecretLocalDeclarationName, methodReturnType, AccDefault, false);
              finallyScope.addLocalVariable(this.secretReturnValue);
              this.secretReturnValue.setConstant(NotAConstant); // not inlinable
            }
          }
        }
        finallyBlock.resolveUsing(finallyScope);
        // force the finally scope to have variable positions shifted after its try scope and catch
        // ones
        finallyScope.shiftScopes =
            new BlockScope[catchArguments == null ? 1 : catchArguments.length + 1];
        finallyScope.shiftScopes[0] = tryScope;
      }
    }
    this.tryBlock.resolveUsing(tryScope);

    // arguments type are checked against JavaLangThrowable in resolveForCatch(..)
    if (this.catchBlocks != null) {
      int length = this.catchArguments.length;
      TypeBinding[] argumentTypes = new TypeBinding[length];
      boolean catchHasError = false;
      for (int i = 0; i < length; i++) {
        BlockScope catchScope = new BlockScope(scope);
        if (finallyScope != null) {
          finallyScope.shiftScopes[i + 1] = catchScope;
        }
        // side effect on catchScope in resolveForCatch(..)
        if ((argumentTypes[i] = catchArguments[i].resolveForCatch(catchScope)) == null) {
          catchHasError = true;
        }
        catchBlocks[i].resolveUsing(catchScope);
      }
      if (catchHasError) {
        return;
      }
      // Verify that the catch clause are ordered in the right way:
      // more specialized first.
      this.caughtExceptionTypes = new ReferenceBinding[length];
      for (int i = 0; i < length; i++) {
        caughtExceptionTypes[i] = (ReferenceBinding) argumentTypes[i];
        for (int j = 0; j < i; j++) {
          if (caughtExceptionTypes[i].isCompatibleWith(argumentTypes[j])) {
            scope
                .problemReporter()
                .wrongSequenceOfExceptionTypesError(
                    this, caughtExceptionTypes[i], i, argumentTypes[j]);
          }
        }
      }
    } else {
      caughtExceptionTypes = new ReferenceBinding[0];
    }

    if (finallyScope != null) {
      // add finallyScope as last subscope, so it can be shifted behind try/catch subscopes.
      // the shifting is necessary to achieve no overlay in between the finally scope and its
      // sibling in term of local variable positions.
      this.scope.addSubscope(finallyScope);
    }
  }