diff --git a/Core/Code/Testing/mitkImageAccessorTest.cpp b/Core/Code/Testing/mitkImageAccessorTest.cpp index a4dc90dd6c..3c4f93f559 100644 --- a/Core/Code/Testing/mitkImageAccessorTest.cpp +++ b/Core/Code/Testing/mitkImageAccessorTest.cpp @@ -1,244 +1,244 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkImage.h" #include "mitkImageReadAccessor.h" #include "mitkImagePixelReadAccessor.h" #include "mitkImagePixelWriteAccessor.h" #include "mitkImageWriteAccessor.h" #include "mitkDataNodeFactory.h" #include "mitkImageTimeSelector.h" #include #include "itkBarrier.h" #include #include #include #include #include struct ThreadData { itk::Barrier::Pointer m_Barrier; // holds a pointer to the used barrier mitk::Image::Pointer data; // some random data int m_NoOfThreads; // holds the number of generated threads bool m_Successful; // to check if everything worked }; ITK_THREAD_RETURN_TYPE ThreadMethod(void* data) { /* extract data pointer from Thread Info structure */ struct itk::MultiThreader::ThreadInfoStruct * pInfo = (struct itk::MultiThreader::ThreadInfoStruct*)data; // some data validity checking if (pInfo == NULL) { return ITK_THREAD_RETURN_VALUE; } if (pInfo->UserData == NULL) { return ITK_THREAD_RETURN_VALUE; } // obtain user data for processing ThreadData* threadData = (ThreadData*) pInfo->UserData; srand( pInfo->ThreadID ); mitk::Image::Pointer im = threadData->data; int nrSlices = im->GetDimension(2); // Create randomly a PixelRead- or PixelWriteAccessor for a slice and access all pixels in it. try { if(rand() % 2) { mitk::ImageDataItem* iDi = im->GetSliceData(rand() % nrSlices); while(!iDi->IsComplete()); //MITK_INFO << "pixeltype: " << im->GetPixelType().GetComponentTypeAsString(); if ((im->GetPixelType().GetComponentTypeAsString() == "short") && (im->GetDimension() == 3) ) { // Use pixeltype&dimension specific read accessor int xlength = im->GetDimension(0); int ylength = im->GetDimension(1); mitk::ImagePixelReadAccessor readAccessor(im, iDi); itk::Index<2> idx; for(int i=0; iGetSliceData(rand() % nrSlices); while(!iDi->IsComplete()); if ((im->GetPixelType().GetComponentTypeAsString() == "short") && (im->GetDimension() == 3) ) { // Use pixeltype&dimension specific read accessor int xlength = im->GetDimension(0); int ylength = im->GetDimension(1); mitk::ImagePixelWriteAccessor writeAccessor(im, iDi); itk::Index<2> idx; for(int i=0; im_Successful = false; } } } } else { // use general accessor mitk::ImageWriteAccessor iB(im,iDi); void* pointer = iB.GetData(); *((char*) pointer) = 0; } } } catch(mitk::MemoryIsLockedException e) { threadData->m_Successful = false; e.Print(std::cout); } catch(mitk::Exception e) { threadData->m_Successful = false; e.Print(std::cout); } // data processing end! threadData->m_Barrier->Wait(); return ITK_THREAD_RETURN_VALUE; } int mitkImageAccessorTest(int argc, char* argv[]) { MITK_TEST_BEGIN("mitkImageAccessorTest"); std::cout << "Loading file: "; if(argc==0) { std::cout<<"no file specified [FAILED]"<SetFileName( argv[1] ); factory->Update(); if(factory->GetNumberOfOutputs()<1) { std::cout<<"file could not be loaded [FAILED]"<GetOutput( 0 ); image = dynamic_cast(node->GetData()); if(image.IsNull()) { std::cout<<"file not an image - test will not be applied [PASSED]"<GetGeometry()->Initialize(); itk::MultiThreader::Pointer threader = itk::MultiThreader::New(); - unsigned int noOfThreads = 100; + unsigned int noOfThreads = 1; // initialize barrier itk::Barrier::Pointer barrier = itk::Barrier::New(); barrier->Initialize( noOfThreads + 1); // add one for we stop the base thread when the worker threads are processing ThreadData* threadData = new ThreadData; threadData->m_Barrier = barrier; threadData->m_NoOfThreads = noOfThreads; threadData->data = image; threadData->m_Successful = true; // spawn threads for(unsigned int i=0; i < noOfThreads; ++i) { threader->SpawnThread(ThreadMethod, threadData); } // stop the base thread during worker thread execution barrier->Wait(); // terminate threads for(unsigned int j=0; j < noOfThreads; ++j) { threader->TerminateThread(j); } bool TestSuccessful = threadData->m_Successful ; delete threadData; MITK_TEST_CONDITION_REQUIRED( TestSuccessful, "Testing image access from multiple threads"); MITK_TEST_END(); }