public MethodCallInfo( Type genericReturnType, Annotation[] returnAnnotations, Type[] parameterTypes, Annotation[][] paramsAnnotations, boolean prependJNIPointers) { init( null, Utils.getClass(genericReturnType), genericReturnType, returnAnnotations, Utils.getClasses(parameterTypes), parameterTypes, paramsAnnotations, prependJNIPointers, false, true); }
public MethodCallInfo(Method method, Method definition) { this.setMethod(method); // this.setDefinition(definition); this.setDeclaringClass(method.getDeclaringClass()); symbolName = methodName; int modifiers = method.getModifiers(); isStatic = Modifier.isStatic(modifiers); isVarArgs = method.isVarArgs(); boolean isNative = Modifier.isNative(modifiers); boolean isVirtual = isAnnotationPresent(Virtual.class, definition); boolean isDirectModeAllowed = getInheritableAnnotation(DisableDirect.class, definition) == null && BridJ.isDirectModeEnabled(); isCPlusPlus = !isStatic && derivesFrom(method.getDeclaringClass(), "org.bridj.cpp.CPPObject"); isObjCBlock = !isStatic && derivesFrom(method.getDeclaringClass(), "org.bridj.objc.ObjCBlock"); init( method, method.getReturnType(), method.getGenericReturnType(), method.getAnnotations(), method.getParameterTypes(), method.getGenericParameterTypes(), method.getParameterAnnotations(), isNative, isVirtual, isDirectModeAllowed); Convention cc = getInheritableAnnotation(Convention.class, definition); if (cc != null) { setCallingConvention(cc.value()); } List<Class<?>> exceptionTypes = Arrays.asList(definition.getExceptionTypes()); if (!exceptionTypes.isEmpty()) { this.direct = false; // there is no crash / exception protection for direct raw calls if (exceptionTypes.contains(LastError.class)) this.bThrowLastError = true; } }