Ejemplo n.º 1
0
  protected VTable synthetizeVirtualTable(
      Type type, Pointer<Pointer> parentVTablePtr, List<VirtMeth> methods, NativeLibrary library) {
    int nMethods = methods.size();
    // Pointer<Pointer> parentVTablePtr = pointerToAddress(getVirtualTable(Utils.getParent(type),
    // library), Pointer.class);
    VTable vtable = new VTable();
    vtable.ptr =
        allocatePointers(nMethods + 2)
            .next(
                2); // leave two null pointers at index -2 and -1, to say there's no runtime type
                    // information available.

    Class<?> c = Utils.getClass(type);
    for (int iMethod = 0; iMethod < nMethods; iMethod++) {
      VirtMeth vm = methods.get(iMethod);
      Pointer<?> pMethod;
      if (Modifier.isNative(vm.implementation.getModifiers())) {
        pMethod = parentVTablePtr == null ? null : parentVTablePtr.get(iMethod);
      } else {
        try {
          MethodCallInfo mci = new MethodCallInfo(vm.implementation, vm.definition);
          mci.setDeclaringClass(vm.implementation.getDeclaringClass());
          pMethod = createCToJavaCallback(mci, c);
          vtable.callbacks.put(vm.implementation, pMethod);
        } catch (Throwable th) {
          BridJ.error(
              "Failed to register overridden method "
                  + vm.implementation
                  + " for type "
                  + type
                  + " (original method = "
                  + vm.definition
                  + ")",
              th);
          pMethod = null;
        }
      }
      vtable.ptr.set(iMethod, (Pointer) pMethod);
    }
    return vtable;
  }
Ejemplo n.º 2
0
  @Override
  protected void registerNativeMethod(
      Class<?> type,
      NativeLibrary typeLibrary,
      Method method,
      NativeLibrary methodLibrary,
      Builder builder,
      MethodCallInfoBuilder methodCallInfoBuilder)
      throws FileNotFoundException {

    int modifiers = method.getModifiers();
    boolean isCPPClass = CPPObject.class.isAssignableFrom(method.getDeclaringClass());

    //		Annotation[][] anns = method.getParameterAnnotations();
    if (!isCPPClass) {
      super.registerNativeMethod(
          type, typeLibrary, method, methodLibrary, builder, methodCallInfoBuilder);
      return;
    }

    MethodCallInfo mci = methodCallInfoBuilder.apply(method);

    Virtual va = method.getAnnotation(Virtual.class);
    if (va == null) {
      Symbol symbol = methodLibrary.getSymbol(method);
      mci.setForwardedPointer(symbol == null ? 0 : symbol.getAddress());
      if (mci.getForwardedPointer() == 0) {
        assert error(
            "Method "
                + method.toGenericString()
                + " is not virtual but its address could not be resolved in the library.");
        return;
      }
      if (Modifier.isStatic(modifiers)) {
        builder.addFunction(mci);
        if (debug)
          info("Registering " + method + " as function or static C++ method " + symbol.getName());
      } else {
        builder.addFunction(mci);
        if (debug) info("Registering " + method + " as C++ method " + symbol.getName());
      }
    } else {
      if (Modifier.isStatic(modifiers)) {
        warning(
            "Method "
                + method.toGenericString()
                + " is native and maps to a function, but is not static.");
      }

      int theoreticalVirtualIndex = va.value();
      int theoreticalAbsoluteVirtualIndex =
          theoreticalVirtualIndex < 0
              ? -1
              : getAbsoluteVirtualIndex(method, theoreticalVirtualIndex, type);

      int absoluteVirtualIndex;

      Pointer<Pointer<?>> pVirtualTable =
          isCPPClass && typeLibrary != null
              ? (Pointer) pointerToAddress(getVirtualTable(type, typeLibrary), Pointer.class)
              : null;
      if (pVirtualTable == null) {
        if (theoreticalAbsoluteVirtualIndex < 0) {
          error(
              "Method "
                  + method.toGenericString()
                  + " is virtual but the virtual table of class "
                  + type.getName()
                  + " was not found and the virtual method index is not provided in its @Virtual annotation.");
          return;
        }
        absoluteVirtualIndex = theoreticalAbsoluteVirtualIndex;
      } else {
        int guessedAbsoluteVirtualIndex =
            getPositionInVirtualTable(pVirtualTable, method, typeLibrary);
        if (guessedAbsoluteVirtualIndex < 0) {
          if (theoreticalAbsoluteVirtualIndex < 0) {
            error(
                "Method "
                    + method.toGenericString()
                    + " is virtual but its position could not be found in the virtual table.");
            return;
          } else {
            absoluteVirtualIndex = theoreticalAbsoluteVirtualIndex;
          }
        } else {
          if (theoreticalAbsoluteVirtualIndex >= 0
              && guessedAbsoluteVirtualIndex != theoreticalAbsoluteVirtualIndex) {
            warning(
                "Method "
                    + method.toGenericString()
                    + " has @Virtual annotation indicating virtual index "
                    + theoreticalAbsoluteVirtualIndex
                    + ", but analysis of the actual virtual table rather indicates it has index "
                    + guessedAbsoluteVirtualIndex
                    + " (using the guess)");
          }
          absoluteVirtualIndex = guessedAbsoluteVirtualIndex;
        }
      }
      mci.setVirtualIndex(absoluteVirtualIndex);
      if (debug)
        info(
            "Registering "
                + method.toGenericString()
                + " as virtual C++ method with absolute virtual table index = "
                + absoluteVirtualIndex);
      builder.addVirtualMethod(mci);
    }
  }