Ejemplo n.º 1
0
US_USE_NAMESPACE

void RetrieveModuleContext()
{
    ModuleContext* context = GetModuleContext();
    Module* module = context->GetModule();
    std::cout << "Module name: " << module->GetName() << " [id: " << module->GetModuleId() << "]\n";
}
Ejemplo n.º 2
0
void TestServicePropertiesUpdate()
{
  struct TestServiceA : public ITestServiceA
  {
  };

  ModuleContext* context = GetModuleContext();

  TestServiceA s1;
  ServiceProperties props;
  props["string"] = std::string("A std::string");
  props["bool"] = false;
  const char* str = "A const char*";
  props["const char*"] = str;

  ServiceRegistration<ITestServiceA> reg1 = context->RegisterService<ITestServiceA>(&s1, props);
  ServiceReference<ITestServiceA> ref1 = context->GetServiceReference<ITestServiceA>();

  US_TEST_CONDITION_REQUIRED(context->GetServiceReferences<ITestServiceA>().size() == 1, "Testing service count")
  US_TEST_CONDITION_REQUIRED(any_cast<bool>(ref1.GetProperty("bool")) == false, "Testing bool property")

  // register second service with higher rank
  TestServiceA s2;
  ServiceProperties props2;
  props2[ServiceConstants::SERVICE_RANKING()] = 50;

  ServiceRegistration<ITestServiceA> reg2 = context->RegisterService<ITestServiceA>(&s2, props2);

  // Get the service with the highest rank, this should be s2.
  ServiceReference<ITestServiceA> ref2 = context->GetServiceReference<ITestServiceA>();
  TestServiceA* service = dynamic_cast<TestServiceA*>(context->GetService(ref2));
  US_TEST_CONDITION_REQUIRED(service == &s2, "Testing highest service rank")

  props["bool"] = true;
  // change the service ranking
  props[ServiceConstants::SERVICE_RANKING()] = 100;
  reg1.SetProperties(props);

  US_TEST_CONDITION_REQUIRED(context->GetServiceReferences<ITestServiceA>().size() == 2, "Testing service count")
  US_TEST_CONDITION_REQUIRED(any_cast<bool>(ref1.GetProperty("bool")) == true, "Testing bool property")
  US_TEST_CONDITION_REQUIRED(any_cast<int>(ref1.GetProperty(ServiceConstants::SERVICE_RANKING())) == 100, "Testing updated ranking")

  // Service with the highest ranking should now be s1
  service = dynamic_cast<TestServiceA*>(context->GetService<ITestServiceA>(ref1));
  US_TEST_CONDITION_REQUIRED(service == &s1, "Testing highest service rank")

  reg1.Unregister();
  US_TEST_CONDITION_REQUIRED(context->GetServiceReferences<ITestServiceA>("").size() == 1, "Testing service count")

  service = dynamic_cast<TestServiceA*>(context->GetService<ITestServiceA>(ref2));
  US_TEST_CONDITION_REQUIRED(service == &s2, "Testing highest service rank")

  reg2.Unregister();
  US_TEST_CONDITION_REQUIRED(context->GetServiceReferences<ITestServiceA>().empty(), "Testing service count")
}
Ejemplo n.º 3
0
int usModuleResourceTest(int /*argc*/, char* /*argv*/[])
{
  US_TEST_BEGIN("ModuleResourceTest");

  ModuleContext* mc = GetModuleContext();
  assert(mc);

#ifdef US_BUILD_SHARED_LIBS
  SharedLibrary libR(LIB_PATH, "TestModuleR");
  try
  {
    libR.Load();
  }
  catch (const std::exception& e)
  {
    US_TEST_FAILED_MSG(<< "Load module exception: " << e.what())
  }
#endif

  Module* moduleR = ModuleRegistry::GetModule("TestModuleR");
  US_TEST_CONDITION_REQUIRED(moduleR != nullptr, "Test for existing module TestModuleR")

  US_TEST_CONDITION(moduleR->GetName() == "TestModuleR", "Test module name")

  testInvalidResource(moduleR);

  testResourceFromExecutable(mc->GetModule());

  testResourceTree(moduleR);

  testResourceOperators(moduleR);

  testTextResource(moduleR);
  testTextResourceAsBinary(moduleR);
  testSpecialCharacters(moduleR);

  testBinaryResource(moduleR);

  testCompressedResource(moduleR);

  ModuleResource foo = moduleR->GetResource("foo.txt");
  US_TEST_CONDITION(foo.IsValid() == true, "Valid resource")
#ifdef US_BUILD_SHARED_LIBS
  libR.Unload();
  US_TEST_CONDITION(foo.IsValid() == true, "Still valid resource")
#endif

  testResourcesFrom("TestModuleRL");
  testResourcesFrom("TestModuleRA");

  US_TEST_END()
}
Ejemplo n.º 4
0
int IOUtil::LoadFiles(const std::vector<std::string> &fileNames, DataStorage &ds)
{
    // Get the set of registered mitk::IDataNodeReader services
    ModuleContext* context = GetModuleContext();
    const std::list<ServiceReference> refs = context->GetServiceReferences<IDataNodeReader>();
    std::vector<IDataNodeReader*> services;
    services.reserve(refs.size());
    for (std::list<ServiceReference>::const_iterator i = refs.begin();
         i != refs.end(); ++i)
    {
        IDataNodeReader* s = context->GetService<IDataNodeReader>(*i);
        if (s != 0)
        {
            services.push_back(s);
        }
    }

    mitk::ProgressBar::GetInstance()->AddStepsToDo(2*fileNames.size());

    // Iterate over all file names and use the IDataNodeReader services
    // to load them.
    int nodesRead = 0;
    for (std::vector<std::string>::const_iterator i = fileNames.begin();
         i != fileNames.end(); ++i)
    {
        for (std::vector<IDataNodeReader*>::const_iterator readerIt = services.begin();
             readerIt != services.end(); ++readerIt)
        {
            try
            {
                int n = (*readerIt)->Read(*i, ds);
                nodesRead += n;
                if (n > 0) break;
            }
            catch (const std::exception& e)
            {
                MITK_WARN << e.what();
            }
        }
        mitk::ProgressBar::GetInstance()->Progress(2);
    }

    for (std::list<ServiceReference>::const_iterator i = refs.begin();
         i != refs.end(); ++i)
    {
        context->UngetService(*i);
    }

    return nodesRead;
}
Ejemplo n.º 5
0
Archivo: main.cpp Proyecto: beneon/MITK
int main(int /*argc*/, char* /*argv*/[])
{
  //! [0]
  ModuleContext* moduleContext = GetModuleContext();
  Module* module = moduleContext->GetModule();

  // List all XML files in the config directory
  std::vector<ModuleResource> xmlFiles = module->FindResources("config", "*.xml", false);

  // Find the resource named vertex_shader.txt starting at the root directory
  std::vector<ModuleResource> shaders = module->FindResources("", "vertex_shader.txt", true);
  //! [0]

  return 0;
}
Ejemplo n.º 6
0
  InterfaceMap GetServiceInterfaceMap()
  {
    InterfaceMap result;

    bool isPrototypeScope = m_reference.GetProperty(ServiceConstants::SERVICE_SCOPE()).ToString() ==
                            ServiceConstants::SCOPE_PROTOTYPE();

    if (isPrototypeScope)
    {
      result = m_reference.d->GetPrototypeService(m_context->GetModule());
    }
    else
    {
      result = m_reference.d->GetServiceInterfaceMap(m_context->GetModule());
    }

    return result;
  }
Ejemplo n.º 7
0
int usModuleTest(int /*argc*/, char* /*argv*/[])
{
  US_TEST_BEGIN("ModuleTest");

  frame02a();

  ModuleContext* mc = GetModuleContext();
  TestModuleListener listener;

  try
  {
    mc->AddModuleListener(&listener, &TestModuleListener::ModuleChanged);
  }
  catch (const std::logic_error& ise)
  {
    US_TEST_OUTPUT( << "module listener registration failed " << ise.what() );
    throw;
  }

  try
  {
    mc->AddServiceListener(&listener, &TestModuleListener::ServiceChanged);
  }
  catch (const std::logic_error& ise)
  {
    US_TEST_OUTPUT( << "service listener registration failed " << ise.what() );
    throw;
  }

  frame005a(mc);
  frame010a(mc);
  frame018a(mc);

  SharedLibrary libA(LIB_PATH, "TestModuleA");
  frame020a(mc, listener, libA);
  frame030b(mc, listener, libA);

  frame045a(mc);

  mc->RemoveModuleListener(&listener, &TestModuleListener::ModuleChanged);
  mc->RemoveServiceListener(&listener, &TestModuleListener::ServiceChanged);

  US_TEST_END()
}
Ejemplo n.º 8
0
US_END_NAMESPACE


void TestServiceFactoryModuleScope()
{

  // Install and start test module H, a service factory and test that the methods
  // in that interface works.

  SharedLibrary target(LIB_PATH, "TestModuleH");

#ifdef US_BUILD_SHARED_LIBS
  try
  {
    target.Load();
  }
  catch (const std::exception& e)
  {
    US_TEST_FAILED_MSG( << "Failed to load module, got exception: " << e.what())
  }
#endif

  Module* moduleH = ModuleRegistry::GetModule("TestModuleH");
  US_TEST_CONDITION_REQUIRED(moduleH != 0, "Test for existing module TestModuleH")

  std::vector<ServiceReferenceU> registeredRefs = moduleH->GetRegisteredServices();
  US_TEST_CONDITION_REQUIRED(registeredRefs.size() == 2, "# of registered services")
  US_TEST_CONDITION(registeredRefs[0].GetProperty(ServiceConstants::SERVICE_SCOPE()).ToString() == ServiceConstants::SCOPE_MODULE(), "service scope")
  US_TEST_CONDITION(registeredRefs[1].GetProperty(ServiceConstants::SERVICE_SCOPE()).ToString() == ServiceConstants::SCOPE_PROTOTYPE(), "service scope")

  ModuleContext* mc = GetModuleContext();
  // Check that a service reference exist
  const ServiceReferenceU sr1 = mc->GetServiceReference("us::TestModuleH");
  US_TEST_CONDITION_REQUIRED(sr1, "Service shall be present.")
  US_TEST_CONDITION(sr1.GetProperty(ServiceConstants::SERVICE_SCOPE()).ToString() == ServiceConstants::SCOPE_MODULE(), "service scope")

  InterfaceMap service = mc->GetService(sr1);
  US_TEST_CONDITION_REQUIRED(service.size() >= 1, "GetService()")
  InterfaceMap::const_iterator serviceIter = service.find("us::TestModuleH");
  US_TEST_CONDITION_REQUIRED(serviceIter != service.end(), "GetService()")
  US_TEST_CONDITION_REQUIRED(serviceIter->second != nullptr, "GetService()")

  InterfaceMap service2 = mc->GetService(sr1);
  US_TEST_CONDITION(service == service2, "Same service pointer")

  std::vector<ServiceReferenceU> usedRefs = mc->GetModule()->GetServicesInUse();
  US_TEST_CONDITION_REQUIRED(usedRefs.size() == 1, "services in use")
  US_TEST_CONDITION(usedRefs[0] == sr1, "service ref in use")

  InterfaceMap service3 = moduleH->GetModuleContext()->GetService(sr1);
  US_TEST_CONDITION(service != service3, "Different service pointer")
  US_TEST_CONDITION(moduleH->GetModuleContext()->UngetService(sr1), "UngetService()")

  US_TEST_CONDITION_REQUIRED(mc->UngetService(sr1) == false, "ungetService()")
  US_TEST_CONDITION_REQUIRED(mc->UngetService(sr1) == true, "ungetService()")

  target.Unload();
}
Ejemplo n.º 9
0
US_USE_NAMESPACE

int usServiceTrackerTest(int /*argc*/, char* /*argv*/[])
{
  US_TEST_BEGIN("ServiceTrackerTest")

  ModuleContext* mc = GetModuleContext();
  SharedLibraryHandle libS("TestModuleS");

  // Start the test target to get a service published.
  try
  {
    libS.Load();
  }
  catch (const std::exception& e)
  {
    US_TEST_FAILED_MSG( << "Failed to load module, got exception: " << e.what() );
  }

  // 1. Create a ServiceTracker with ServiceTrackerCustomizer == null

  std::string s1("org.cppmicroservices.TestModuleSService");
  ServiceReference servref = mc->GetServiceReference(s1 + "0");

  US_TEST_CONDITION_REQUIRED(servref != 0, "Test if registered service of id org.cppmicroservices.TestModuleSService0");

  ServiceControlInterface* serviceController = mc->GetService<ServiceControlInterface>(servref);
  US_TEST_CONDITION_REQUIRED(serviceController != 0, "Test valid service controller");

  std::auto_ptr<ServiceTracker<> > st1(new ServiceTracker<>(mc, servref));

  // 2. Check the size method with an unopened service tracker

  US_TEST_CONDITION_REQUIRED(st1->Size() == 0, "Test if size == 0");

  // 3. Open the service tracker and see what it finds,
  // expect to find one instance of the implementation,
  // "org.cppmicroservices.TestModuleSService0"

  st1->Open();
  std::string expName  = "TestModuleS";
  std::list<ServiceReference> sa2;
  st1->GetServiceReferences(sa2);

  US_TEST_CONDITION_REQUIRED(sa2.size() == 1, "Checking ServiceTracker size");
  std::string name(us_service_impl_name(mc->GetService(sa2.front())));
  US_TEST_CONDITION_REQUIRED(name == expName, "Checking service implementation name");

  // 5. Close this service tracker
  st1->Close();

  // 6. Check the size method, now when the servicetracker is closed
  US_TEST_CONDITION_REQUIRED(st1->Size() == 0, "Checking ServiceTracker size");

  // 7. Check if we still track anything , we should get null
  sa2.clear();
  st1->GetServiceReferences(sa2);
  US_TEST_CONDITION_REQUIRED(sa2.empty(), "Checking ServiceTracker size");

  // 8. A new Servicetracker, this time with a filter for the object
  std::string fs = std::string("(") + ServiceConstants::OBJECTCLASS() + "=" + s1 + "*" + ")";
  LDAPFilter f1(fs);
  st1.reset(new ServiceTracker<>(mc, f1));
  // add a service
  serviceController->ServiceControl(1, "register", 7);

  // 9. Open the service tracker and see what it finds,
  // expect to find two instances of references to
  // "org.cppmicroservices.TestModuleSService*"
  // i.e. they refer to the same piece of code

  st1->Open();
  sa2.clear();
  st1->GetServiceReferences(sa2);
  US_TEST_CONDITION_REQUIRED(sa2.size() == 2, "Checking service reference count");
  for (std::list<ServiceReference>::const_iterator i = sa2.begin();  i != sa2.end(); ++i)
  {
    std::string name(mc->GetService(*i)->GetNameOfClass());
    US_TEST_CONDITION_REQUIRED(name == expName, "Check for expected class name");
  }

  // 10. Get libTestModuleS to register one more service and see if it appears
  serviceController->ServiceControl(2, "register", 1);
  sa2.clear();
  st1->GetServiceReferences(sa2);
  US_TEST_CONDITION_REQUIRED(sa2.size() == 3, "Checking service reference count");
  for (std::list<ServiceReference>::const_iterator i = sa2.begin(); i != sa2.end(); ++i)
  {
    std::string name(mc->GetService(*i)->GetNameOfClass());
    US_TEST_CONDITION_REQUIRED(name == expName, "Check for expected class name");
  }

  // 11. Get libTestModuleS to register one more service and see if it appears
  serviceController->ServiceControl(3, "register", 2);
  sa2.clear();
  st1->GetServiceReferences(sa2);
  US_TEST_CONDITION_REQUIRED(sa2.size() == 4, "Checking service reference count");
  for (std::list<ServiceReference>::const_iterator i = sa2.begin(); i != sa2.end(); ++i)
  {
    std::string name = mc->GetService(*i)->GetNameOfClass();
    US_TEST_CONDITION_REQUIRED(name == expName, "Check for expected class name");
  }

  // 12. Get libTestModuleS to unregister one service and see if it disappears
  serviceController->ServiceControl(3, "unregister", 0);
  sa2.clear();
  st1->GetServiceReferences(sa2);
  US_TEST_CONDITION_REQUIRED(sa2.size() == 3, "Checking service reference count");
  for (std::list<ServiceReference>::const_iterator i = sa2.begin(); i != sa2.end(); ++i)
  {
    std::string name = mc->GetService(*i)->GetNameOfClass();
    US_TEST_CONDITION_REQUIRED(name == expName, "Check for expected class name");
  }

  // 13. Get the highest ranking service reference, it should have ranking 7
  ServiceReference h1 = st1->GetServiceReference();
  int rank = any_cast<int>(h1.GetProperty(ServiceConstants::SERVICE_RANKING()));
  US_TEST_CONDITION_REQUIRED(rank == 7, "Check service rank");

  // 14. Get the service of the highest ranked service reference

  US_BASECLASS_NAME* o1 = st1->GetService(h1);
  US_TEST_CONDITION_REQUIRED(o1 != 0, "Check for non-null service");

  // 14a Get the highest ranked service, directly this time
  US_BASECLASS_NAME* o3 = st1->GetService();
  US_TEST_CONDITION_REQUIRED(o3 != 0, "Check for non-null service");
  US_TEST_CONDITION_REQUIRED(o1 == o3, "Check for equal service instances");

  // 15. Now release the tracking of that service and then try to get it
  //     from the servicetracker, which should yield a null object
  serviceController->ServiceControl(1, "unregister", 7);
  US_BASECLASS_NAME* o2 = st1->GetService(h1);
  US_TEST_CONDITION_REQUIRED(o2 == 0, "Checkt that service is null");

  // 16. Get all service objects this tracker tracks, it should be 2
  std::list<US_BASECLASS_NAME*> ts1;
  st1->GetServices(ts1);
  US_TEST_CONDITION_REQUIRED(ts1.size() == 2, "Check service count");

  // 17. Test the remove method.
  //     First register another service, then remove it being tracked
  serviceController->ServiceControl(1, "register", 7);
  h1 = st1->GetServiceReference();
  std::list<ServiceReference> sa3;
  st1->GetServiceReferences(sa3);
  US_TEST_CONDITION_REQUIRED(sa3.size() == 3, "Check service reference count");
  for (std::list<ServiceReference>::const_iterator i = sa3.begin(); i != sa3.end(); ++i)
  {
    std::string name = mc->GetService(*i)->GetNameOfClass();
    US_TEST_CONDITION_REQUIRED(name == expName, "Checking for expected class name");
  }

  st1->Remove(h1);           // remove tracking on one servref
  sa2.clear();
  st1->GetServiceReferences(sa2);
  US_TEST_CONDITION_REQUIRED(sa2.size() == 2, "Check service reference count");

  // 18. Test the addingService method,add a service reference

  // 19. Test the removedService method, remove a service reference


  // 20. Test the waitForService method
  US_BASECLASS_NAME* o9 = st1->WaitForService(50);
  US_TEST_CONDITION_REQUIRED(o9 != 0, "Checking WaitForService method");

  US_TEST_END()
}
Ejemplo n.º 10
0
void TestServiceFactoryPrototypeScope()
{

  // Install and start test module H, a service factory and test that the methods
  // in that interface works.

  SharedLibrary target(LIB_PATH, "TestModuleH");

#ifdef US_BUILD_SHARED_LIBS
  try
  {
    target.Load();
  }
  catch (const std::exception& e)
  {
    US_TEST_FAILED_MSG( << "Failed to load module, got exception: " << e.what())
  }

  Module* moduleH = ModuleRegistry::GetModule("TestModuleH");
  US_TEST_CONDITION_REQUIRED(moduleH != 0, "Test for existing module TestModuleH")
#endif

  ModuleContext* mc = GetModuleContext();
  // Check that a service reference exist
  const ServiceReference<TestModuleH2> sr1 = mc->GetServiceReference<TestModuleH2>();
  US_TEST_CONDITION_REQUIRED(sr1, "Service shall be present.")
  US_TEST_CONDITION(sr1.GetProperty(ServiceConstants::SERVICE_SCOPE()).ToString() == ServiceConstants::SCOPE_PROTOTYPE(), "service scope")

  ServiceObjects<TestModuleH2> svcObjects = mc->GetServiceObjects(sr1);
  TestModuleH2* prototypeServiceH2 = svcObjects.GetService();

  const ServiceReferenceU sr1void = mc->GetServiceReference(us_service_interface_iid<TestModuleH2>());
  ServiceObjects<void> svcObjectsVoid = mc->GetServiceObjects(sr1void);
  InterfaceMap prototypeServiceH2Void = svcObjectsVoid.GetService();
  US_TEST_CONDITION_REQUIRED(prototypeServiceH2Void.find(us_service_interface_iid<TestModuleH2>()) != prototypeServiceH2Void.end(),
                             "ServiceObjects<void>::GetService()")

#ifdef US_BUILD_SHARED_LIBS
  // There should be only one service in use
  US_TEST_CONDITION_REQUIRED(mc->GetModule()->GetServicesInUse().size() == 1, "services in use")
#endif

  TestModuleH2* moduleScopeService = mc->GetService(sr1);
  US_TEST_CONDITION_REQUIRED(moduleScopeService && moduleScopeService != prototypeServiceH2, "GetService()")

  US_TEST_CONDITION_REQUIRED(prototypeServiceH2 != prototypeServiceH2Void.find(us_service_interface_iid<TestModuleH2>())->second,
                             "GetService()")

  svcObjectsVoid.UngetService(prototypeServiceH2Void);

  TestModuleH2* moduleScopeService2 = mc->GetService(sr1);
  US_TEST_CONDITION(moduleScopeService == moduleScopeService2, "Same service pointer")

#ifdef US_BUILD_SHARED_LIBS
  std::vector<ServiceReferenceU> usedRefs = mc->GetModule()->GetServicesInUse();
  US_TEST_CONDITION_REQUIRED(usedRefs.size() == 1, "services in use")
  US_TEST_CONDITION(usedRefs[0] == sr1, "service ref in use")
#endif

  std::string filter = "(" + ServiceConstants::SERVICE_ID() + "=" + sr1.GetProperty(ServiceConstants::SERVICE_ID()).ToString() + ")";
  const ServiceReference<TestModuleH> sr2 = mc->GetServiceReferences<TestModuleH>(filter).front();
  US_TEST_CONDITION_REQUIRED(sr2, "Service shall be present.")
  US_TEST_CONDITION(sr2.GetProperty(ServiceConstants::SERVICE_SCOPE()).ToString() == ServiceConstants::SCOPE_PROTOTYPE(), "service scope")
  US_TEST_CONDITION(any_cast<long>(sr2.GetProperty(ServiceConstants::SERVICE_ID())) == any_cast<long>(sr1.GetProperty(ServiceConstants::SERVICE_ID())), "same service id")

  try
  {
    svcObjects.UngetService(moduleScopeService2);
    US_TEST_FAILED_MSG(<< "std::invalid_argument exception expected")
  }
  catch (const std::invalid_argument&)
  {
    // this is expected
  }

#ifdef US_BUILD_SHARED_LIBS
  // There should still be only one service in use
  usedRefs = mc->GetModule()->GetServicesInUse();
  US_TEST_CONDITION_REQUIRED(usedRefs.size() == 1, "services in use")
#endif

  ServiceObjects<TestModuleH2> svcObjects2 = svcObjects;
  ServiceObjects<TestModuleH2> svcObjects3 = mc->GetServiceObjects(sr1);
  try
  {
    svcObjects3.UngetService(prototypeServiceH2);
    US_TEST_FAILED_MSG(<< "std::invalid_argument exception expected")
  }
  catch (const std::invalid_argument&)
  {
    // this is expected
  }

  svcObjects2.UngetService(prototypeServiceH2);
  prototypeServiceH2 = svcObjects2.GetService();
  TestModuleH2* prototypeServiceH2_2 = svcObjects3.GetService();

  US_TEST_CONDITION_REQUIRED(prototypeServiceH2_2 && prototypeServiceH2_2 != prototypeServiceH2, "prototype service")

  svcObjects2.UngetService(prototypeServiceH2);
  svcObjects3.UngetService(prototypeServiceH2_2);
  US_TEST_CONDITION_REQUIRED(mc->UngetService(sr1) == false, "ungetService()")
  US_TEST_CONDITION_REQUIRED(mc->UngetService(sr1) == true, "ungetService()")

  target.Unload();
}