+
+int TestClass_Skeleton::setAndGetA(int newA) {
+
+ return tc->setAndGetA(newA);
+}
+
+
+void TestClass_Skeleton::___setAndGetA() {
+
+ string paramCls[] = { "int" };
+ int numParam = 1;
+ int param1 = 0;
+ void* paramObj[] = { ¶m1 };
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ int retVal = setAndGetA(param1);
+ void* retObj = &retVal;
+ rmiObj->sendReturnObj(retObj, "int");
+}
+
+
+int TestClass_Skeleton::setACAndGetA(string newC, int newA) {
+
+ return tc->setACAndGetA(newC, newA);
+}
+
+
+void TestClass_Skeleton::___setACAndGetA() {
+
+ string paramCls[] = { "string", "int" };
+ int numParam = 2;
+ string param1 = "";
+ int param2 = 0;
+ void* paramObj[] = { ¶m1, ¶m2 };
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ int retVal = setACAndGetA(param1, param2);
+ void* retObj = &retVal;
+ rmiObj->sendReturnObj(retObj, "int");
+}
+
+
+void TestClass_Skeleton::registerCallback(CallBackInterface* _cb) {
+
+ tc->registerCallback(_cb);
+}
+
+
+void TestClass_Skeleton::___registerCallback() {
+
+}
+
+
+void TestClass_Skeleton::registerCallback(vector<CallBackInterface*> _cb) {
+
+ tc->registerCallback(_cb);
+}
+
+
+void TestClass_Skeleton::___regCB() {
+
+ string paramCls[] = { "int", "string", "int" };
+ int numParam = 3;
+ int param1 = 0;
+ string param2 = "";
+ int param3 = 0;
+ void* paramObj[] = { ¶m1, ¶m2, ¶m3 };
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ // Instantiate IoTRMICall object
+ bool bResult = false;
+ cout << "Port: " << param1 << endl;
+ cout << "Address: " << param2 << endl;
+
+ rmiCall = new IoTRMICall(param1, param2.c_str(), param3, &bResult);
+}
+
+
+void TestClass_Skeleton::____registerCallback() {
+
+ string paramCls[] = { "int" };
+ int numParam = 1;
+ int numStubs = 0;
+ void* paramObj[] = { &numStubs };
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ vector<CallBackInterface*> stub;
+ for (int objId = 0; objId < numStubs; objId++) {
+ CallBackInterface* cb = new CallBack_CBStub(rmiCall, objIdCnt);
+ stub.push_back(cb);
+ vecCBObj.push_back(cb);
+ objIdCnt++;
+ }
+ registerCallback(stub);
+}
+
+
+int TestClass_Skeleton::callBack() {
+
+ tc->callBack();
+}
+
+
+void TestClass_Skeleton::___callBack() {
+
+ int retVal = callBack();
+ void* retObj = &retVal;
+ rmiObj->sendReturnObj(retObj, "int");
+}
+
+
+vector<data> TestClass_Skeleton::handleStruct(vector<data> vecData) {
+
+ return tc->handleStruct(vecData);
+}
+
+
+int TestClass_Skeleton::___structSize() {
+
+ string paramCls[] = { "int" };
+ int numParam = 1;
+ int param1 = 0;
+ void* paramObj[] = { ¶m1 };
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ return param1;
+}
+
+
+void TestClass_Skeleton::___handleStruct(int structsize1) {
+
+ string paramCls[3*structsize1];
+ void* paramObj[3*structsize1];
+ int numParam = 3*structsize1;
+ // define array of everything
+ string param1[structsize1];
+ float param2[structsize1];
+ int param3[structsize1];
+ int pos = 0;
+ for(int i=0; i < structsize1; i++) {
+ paramCls[pos] = "string";
+ paramObj[pos++] = ¶m1[i];
+ paramCls[pos] = "float";
+ paramObj[pos++] = ¶m2[i];
+ paramCls[pos] = "int";
+ paramObj[pos++] = ¶m3[i];
+ }
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ vector<data> dat(structsize1);
+ pos = 0;
+ for (int i=0; i < structsize1; i++) {
+ dat[i].name = param1[i];
+ dat[i].value = param2[i];
+ dat[i].year = param3[i];
+ }
+ // This is a return value of type vector of struct
+ // If no return value, then just "handleStruct(dat)"
+ vector<data> retData = handleStruct(dat);
+ // Send the length first!
+ int retLength = retData.size();
+ void* retObj = &retLength;
+ rmiObj->sendReturnObj(retObj, "int");
+ // Send the actual bytes - struct of 3 members
+ int numRetObj = 3*retLength;
+ string retCls[numRetObj];
+ void* retObj2[numRetObj];
+ pos = 0;
+ for(int i = 0; i < retLength; i++) {
+ retCls[pos] = "string";
+ retObj2[pos] = &retData[i].name; pos++;
+ retCls[pos] = "float";
+ retObj2[pos] = &retData[i].value; pos++;
+ retCls[pos] = "int";
+ retObj2[pos] = &retData[i].year; pos++;
+ }
+ rmiObj->sendReturnObj(retObj2, retCls, numRetObj);
+}
+
+
+vector<EnumC> TestClass_Skeleton::handleEnum(vector<EnumC> vecEn) {
+
+ return tc->handleEnum(vecEn);
+}
+
+
+int TestClass_Skeleton::___enumSize() {
+
+ string paramCls[] = { "int" };
+ int numParam = 1;
+ int param1 = 0;
+ void* paramObj[] = { ¶m1 };
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ return param1;
+}
+
+
+void TestClass_Skeleton::___handleEnum() {
+
+ int numParam = 1;
+ string paramCls[] = { "int[]" };
+ vector<int> paramInt;
+ void* paramObj[] = { ¶mInt };
+ // Receive the array of integers
+ rmiObj->getMethodParams(paramCls, numParam, paramObj);
+ int enumSize1 = paramInt.size();
+ vector<EnumC> en(enumSize1);
+ for (int i=0; i < enumSize1; i++) {
+ en[i] = (EnumC) paramInt[i];
+ }
+ //handleEnum(en);
+ // if void, just "handleEnum(en)"
+ // this is when we have return value vector<EnumC>
+ vector<EnumC> retEnum = handleEnum(en);
+ // Get length first
+ int enumSize2 = retEnum.size();
+ // Now send the array of integers
+ vector<int> retEnumInt(enumSize2);
+ for (int i=0; i < enumSize2; i++) {
+ retEnumInt[i] = (int) retEnum[i];
+ }
+ void* retObj = &retEnumInt;
+ rmiObj->sendReturnObj(retObj, "int[]");
+}
+
+
+void TestClass_Skeleton::___waitRequestInvokeMethod() {
+
+ int structsize1 = 0;
+
+ // Loop continuously waiting for incoming bytes
+ while (true) {
+
+ rmiObj->getMethodBytes();
+ int _objectId = rmiObj->getObjectId();
+ int methodId = rmiObj->getMethodId();
+ if (_objectId == object0Id) {
+ // Multiplex based on object Id
+ // Complain if the method is not allowed
+ if (set0Allowed.find(methodId) == set0Allowed.end()) {
+ cerr << "TestClass_Skeleton: This object is not allowed to access method " << methodId << endl;
+ //exit(1);
+ throw exception();
+ }
+ // If we have more than 1 object Id...
+ //else if (_objectId == object1Id) {
+
+ } else {
+ cerr << "TestClass_Skeleton: Unrecognizable object Id: " << _objectId << endl;
+ throw exception();
+ //exit(1);
+ }
+
+ switch (methodId) {
+ case 0: ___setA(); break;
+ case 1: ___setB(); break;
+ case 2: ___setC(); break;
+ case 3: ___sumArray(); break;
+ /* case 3: ____sumArray(); break;*/
+ case 4: ___setAndGetA(); break;
+ case 5: ___setACAndGetA(); break;
+ case 6: ___callBack(); break;
+ case 7: ___registerCallback(); break;
+ case 8: ____registerCallback(); break;
+ case 9: ___regCB(); break;
+ // Handle struct
+ case 10: ___handleStruct(structsize1); break;
+ case 11: structsize1 = ___structSize(); break;
+ case 12: ___handleEnum(); break;
+ default:
+ string error = "Method Id not recognized!";
+ throw error;
+ }
+ }
+}
+
+
+#endif
+