void checkParam(ParamInfo param, String name, Type expectedType, Type expectedUnresolvedType) { checkParam(param, name ,expectedType); TypeInfo expectedUnresolvedTypeInfo = TypeReflectionFactory.create(expectedUnresolvedType); assertEquals(expectedUnresolvedTypeInfo.getName(), param.getUnresolvedType().getName()); assertEquals(expectedUnresolvedTypeInfo.getKind(), param.getUnresolvedType().getKind()); }
private MethodInfo genFutureMethod(MethodInfo method) { String futMethodName = genFutureMethodName(method); List<ParamInfo> futParams = new ArrayList<>(); int count = 0; int size = method.getParams().size() - 1; while (count < size) { ParamInfo param = method.getParam(count); /* Transform ReadStream -> Flowable */ futParams.add(param); count = count + 1; } ParamInfo futParam = method.getParam(size); TypeInfo futType = ((ParameterizedTypeInfo) ((ParameterizedTypeInfo) futParam.getType()).getArg(0)).getArg(0); TypeInfo futUnresolvedType = ((ParameterizedTypeInfo) ((ParameterizedTypeInfo) futParam.getUnresolvedType()).getArg(0)).getArg(0); TypeInfo futReturnType; if (futUnresolvedType.getKind() == VOID) { futReturnType = io.vertx.codegen.type.TypeReflectionFactory.create(io.reactivex.Completable.class); } else if (futUnresolvedType.isNullable()) { futReturnType = new io.vertx.codegen.type.ParameterizedTypeInfo(io.vertx.codegen.type.TypeReflectionFactory.create(io.reactivex.Maybe.class).getRaw(), false, Collections.singletonList(futType)); } else { futReturnType = new io.vertx.codegen.type.ParameterizedTypeInfo(io.vertx.codegen.type.TypeReflectionFactory.create(io.reactivex.Single.class).getRaw(), false, Collections.singletonList(futType)); } return method.copy().setName(futMethodName).setReturnType(futReturnType).setParams(futParams); }