int main() { // Import CT image ImageFileImporter::pointer importer = ImageFileImporter::New(); importer->setFilename(Config::getTestDataPath() + "CT/CT-Abdomen.mhd"); // Extract surface mesh from the CT image SurfaceExtraction::pointer extraction = SurfaceExtraction::New(); extraction->setInputConnection(importer->getOutputPort()); extraction->setThreshold(400); // Export mesh to disk VTKMeshFileExporter::pointer exporter = VTKMeshFileExporter::New(); exporter->setInputConnection(extraction->getOutputPort()); exporter->setFilename("region_growing_result.vtk"); exporter->setWriteNormals(true); exporter->update(0); }
int main() { // Import image from file using the ImageFileImporter ImageFileImporter::pointer importer = ImageFileImporter::New(); importer->setFilename(std::string(FAST_TEST_DATA_DIR)+"/US-2D.jpg"); // Smooth image GaussianSmoothingFilter::pointer filter = GaussianSmoothingFilter::New(); filter->setInputConnection(importer->getOutputPort()); filter->setStandardDeviation(2.0); filter->setMaskSize(7); // Renderer image ImageRenderer::pointer renderer = ImageRenderer::New(); renderer->addInputConnection(filter->getOutputPort()); SimpleWindow::pointer window = SimpleWindow::New(); window->addRenderer(renderer); #ifdef FAST_CONTINUOUS_INTEGRATION // This will automatically close the window after 5 seconds, used for CI testing window->setTimeout(5*1000); #endif window->start(); }
int main() { // Import CT image ImageFileImporter::pointer importer = ImageFileImporter::New(); importer->setFilename(std::string(FAST_TEST_DATA_DIR) + "CT-Abdomen.mhd"); // Extract surface mesh using a threshold value SurfaceExtraction::pointer extraction = SurfaceExtraction::New(); extraction->setInputConnection(importer->getOutputPort()); extraction->setThreshold(300); // Render and visualize the mesh MeshRenderer::pointer surfaceRenderer = MeshRenderer::New(); surfaceRenderer->setInputConnection(extraction->getOutputPort()); SimpleWindow::pointer window = SimpleWindow::New(); window->addRenderer(surfaceRenderer); #ifdef FAST_CONTINUOUS_INTEGRATION // This will automatically close the window after 5 seconds, used for CI testing window->setTimeout(5*1000); #endif window->start(); }
int main() { // Import image from file using the ImageFileImporter ImageFileImporter::pointer importer = ImageFileImporter::New(); importer->setFilename(std::string(FAST_TEST_DATA_DIR)+"/US-2D.jpg"); //importer->setFilename(std::string(FAST_TEST_DATA_DIR) + "/US-1-2D.png"); /* //K = 1, dvs K = gamle versjonen, M_PI gaus int groupSize = 5; int windowSize = 51; float sigma = 1.65f; float dS = 0.5f; */ /* //K = 0, dvs K = 1/2d int groupSize = 5; int windowSize = 51; float sigma = 0.65f; float dS = 0.135f; */ //K = 3 dvs ny gauss int groupSize = 17; int windowSize = 17; float sigma = 5.000f; //float dS = 0.03999f; float dS = 5.0f; // Smooth image NoneLocalMeans::pointer filter = NoneLocalMeans::New(); filter->setInputConnection(importer->getOutputPort()); //filter->setGroupSize(15); //filter->setWindowSize(51); //filter->setSigma(0.15f); //filter->setDenoiseStrength(0.15f); filter->setGroupSize(groupSize); filter->setWindowSize(windowSize); filter->setSigma(sigma); filter->setDenoiseStrength(dS); filter->setEuclid(1); filter->setK(2); //filter->setOutputType(TYPE_FLOAT); //Export img ImageExporter::pointer exporter = ImageExporter::New(); std::string text = ""; //text += std::to_string( groupSize ); //text += "WS_"; //text += std::to_string( windowSize ); //text += "S_"; //text += std::to_string( sigma ); //text += "DS_"; //text += std::to_string( dS ); text += "TIME_"; time_t seconds; seconds = time (NULL); text += std::to_string( seconds ); text += ".jpg"; exporter->setFilename(text); exporter->setInputConnection(filter->getOutputPort()); exporter->update(); // Renderer image ImageRenderer::pointer renderer = ImageRenderer::New(); renderer->addInputConnection(filter->getOutputPort()); SimpleWindow::pointer window = SimpleWindow::New(); window->addRenderer(renderer); window->setTimeout(200*1000); // automatically close window after 5 seconds window->start(); }
void ImageFileStreamer::producerStream() { Streamer::pointer pointerToSelf = mPtr.lock(); // try to avoid this object from being destroyed until this function is finished uint i = mStartNumber; while(true) { std::string filename = mFilenameFormat; std::string frameNumber = boost::lexical_cast<std::string>(i); if(mZeroFillDigits > 0 && frameNumber.size() < mZeroFillDigits) { std::string zeroFilling = ""; for(uint z = 0; z < mZeroFillDigits-frameNumber.size(); z++) { zeroFilling += "0"; } frameNumber = zeroFilling + frameNumber; } filename.replace( filename.find("#"), 1, frameNumber ); try { ImageFileImporter::pointer importer = ImageFileImporter::New(); importer->setFilename(filename); importer->setMainDevice(getMainDevice()); importer->update(); Image::pointer image = importer->getOutputData<Image>(); DynamicData::pointer ptr = getOutputData<Image>(); if(ptr.isValid()) { try { ptr->addFrame(image); if(mSleepTime > 0) boost::this_thread::sleep(boost::posix_time::milliseconds(mSleepTime)); } catch(NoMoreFramesException &e) { throw e; } catch(Exception &e) { std::cout << "streamer has been deleted, stop" << std::endl; break; } if(!mFirstFrameIsInserted) { { boost::lock_guard<boost::mutex> lock(mFirstFrameMutex); mFirstFrameIsInserted = true; } mFirstFrameCondition.notify_one(); } } else { std::cout << "DynamicImage object destroyed, stream can stop." << std::endl; break; } mNrOfFrames++; i += mStepSize; } catch(FileNotFoundException &e) { if(i > 0) { std::cout << "Reached end of stream" << std::endl; // If there where no files found at all, we need to release the execute method if(!mFirstFrameIsInserted) { { boost::lock_guard<boost::mutex> lock(mFirstFrameMutex); mFirstFrameIsInserted = true; } mFirstFrameCondition.notify_one(); } if(mLoop) { // Restart stream i = mStartNumber; continue; } mHasReachedEnd = true; // Reached end of stream break; } else { throw e; } } } }
NLMGUI2D::NLMGUI2D() { viewOrig = createView(); viewOrig->set2DMode(); //viewOrig->set3DMode(); // Create a 3D view //View* view = createView(); view = createView(); //view->set3DMode(); view->set2DMode(); //enableFullscreen(); // Import image ImageFileImporter::pointer importer = ImageFileImporter::New(); importer->setFilename(std::string(FAST_TEST_DATA_DIR) + "/US-2D.jpg"); //importer->setFilename(std::string(FAST_TEST_DATA_DIR) + "/US-1-2D.png"); // Smooth images nlmSmoothing = NonLocalMeans::New(); nlmSmoothing->setInputConnection(importer->getOutputPort()); nlmSmoothing->setSigma(0.65f); nlmSmoothing->setGroupSize(5); nlmSmoothing->setWindowSize(11); nlmSmoothing->setDenoiseStrength(0.300); nlmSmoothing->setK(1); nlmSmoothing->setEuclid(1); nlmSmoothing->enableRuntimeMeasurements(); //mSmoothing = GaussianSmoothingFilter::New(); //mSmoothing->setInputConnection(importer->getOutputPort()); //mSmoothing->setStandardDeviation(1); // Set up surface extraction //mSurfaceExtraction = SurfaceExtraction::New(); //mSurfaceExtraction->setInputConnection(nlmSmoothing->getOutputPort()); //mSurfaceExtraction->setThreshold(100); // Set up rendering renderer = ImageRenderer::New(); //ImageRenderer::pointer renderer = ImageRenderer::New(); renderer->addInputConnection(nlmSmoothing->getOutputPort()); //MeshRenderer::pointer renderer = MeshRenderer::New(); //renderer->addInputConnection(mSurfaceExtraction->getOutputPort()); view->addRenderer(renderer); rendererOrig = ImageRenderer::New(); rendererOrig->addInputConnection(importer->getOutputPort()); viewOrig->addRenderer(rendererOrig); // Create and add GUI elements // First create the menu layout QVBoxLayout* menuLayout = new QVBoxLayout; // Menu items should be aligned to the top menuLayout->setAlignment(Qt::AlignTop); // Title label QLabel* title = new QLabel; title->setText("Menu"); QFont font; font.setPointSize(28); title->setFont(font); menuLayout->addWidget(title); // Quit button QPushButton* quitButton = new QPushButton; quitButton->setText("Quit"); quitButton->setFixedWidth(200); menuLayout->addWidget(quitButton); // Connect the clicked signal of the quit button to the stop method for the window QObject::connect(quitButton, &QPushButton::clicked, boost::bind(&Window::stop, this)); // Smoothing parameter label //mSmoothingLabel = new QLabel; //mSmoothingLabel->setText("DenoiseStrength: 300"); //menuLayout->addWidget(mSmoothingLabel); nlmStrengthLabel = new QLabel; std::string text1 = "Denoise Strength: " + boost::lexical_cast<std::string>(0.3) + " "; nlmStrengthLabel->setText(text1.c_str()); menuLayout->addWidget(nlmStrengthLabel); // Smoothing parameter slider QSlider* slider = new QSlider(Qt::Horizontal); slider->setMinimum(10); slider->setMaximum(3000); slider->setValue(300); slider->setFixedWidth(300); menuLayout->addWidget(slider); // Connect the value changed signal of the slider to the updateSmoothingParameter method QObject::connect(slider, &QSlider::valueChanged, boost::bind(&NLMGUI2D::updateDenoiseParameter, this, _1)); // Threshold label //mThresholdLabel = new QLabel; //mThresholdLabel->setText("Threshold: 100 HU"); //menuLayout->addWidget(mThresholdLabel); nlmSigmaLabel = new QLabel; std::string text2 = "Sigma: " + boost::lexical_cast<std::string>(0.65) + " "; nlmSigmaLabel->setText(text2.c_str()); menuLayout->addWidget(nlmSigmaLabel); // Sigma slider QSlider* slider2 = new QSlider(Qt::Horizontal); slider2->setMinimum(10); slider2->setMaximum(3000); slider2->setValue(650); slider2->setFixedWidth(300); menuLayout->addWidget(slider2); // Connect the value changed signal of the slider to the updateSigma method QObject::connect(slider2, &QSlider::valueChanged, boost::bind(&NLMGUI2D::updateSigma, this, _1)); //GroupSize Label + Slider nlmGroupSizeLabel = new QLabel; std::string text3 = "Group Size: " + boost::lexical_cast<std::string>(3) + " "; nlmGroupSizeLabel->setText(text3.c_str()); menuLayout->addWidget(nlmGroupSizeLabel); QSlider* slider3 = new QSlider(Qt::Horizontal); slider3->setMinimum(3); slider3->setMaximum(30); slider3->setValue(3); slider3->setFixedWidth(300); menuLayout->addWidget(slider3); QObject::connect(slider3, &QSlider::valueChanged, boost::bind(&NLMGUI2D::updateGroupSize, this, _1)); //WindowSize Label + Slider nlmWindowSizeLabel = new QLabel; std::string text4 = "Window Size: " + boost::lexical_cast<std::string>(5) + " "; nlmWindowSizeLabel->setText(text4.c_str()); menuLayout->addWidget(nlmWindowSizeLabel); QSlider* slider4 = new QSlider(Qt::Horizontal); slider4->setMinimum(5); slider4->setMaximum(100); slider4->setValue(5); slider4->setFixedWidth(300); menuLayout->addWidget(slider4); QObject::connect(slider4, &QSlider::valueChanged, boost::bind(&NLMGUI2D::updateWindowSize, this, _1)); //K Label + Slider nlmKLabel = new QLabel; std::string text5 = "K Version: " + boost::lexical_cast<std::string>(0) + " "; nlmKLabel->setText(text5.c_str()); menuLayout->addWidget(nlmKLabel); QSlider* slider5 = new QSlider(Qt::Horizontal); slider5->setMinimum(0); slider5->setMaximum(5); slider5->setValue(0); slider5->setFixedWidth(300); menuLayout->addWidget(slider5); QObject::connect(slider5, &QSlider::valueChanged, boost::bind(&NLMGUI2D::updateK, this, _1)); nlmELabel = new QLabel; std::string text7 = "Euclid Version: " + boost::lexical_cast<std::string>(0) + " "; nlmELabel->setText(text7.c_str()); menuLayout->addWidget(nlmELabel); QSlider* slider6 = new QSlider(Qt::Horizontal); slider6->setMinimum(0); slider6->setMaximum(2); slider6->setValue(0); slider6->setFixedWidth(300); menuLayout->addWidget(slider6); QObject::connect(slider6, &QSlider::valueChanged, boost::bind(&NLMGUI2D::updateE, this, _1)); timerLabel = new QLabel; std::string text6 = "Kernal time: -- ms" ; timerLabel->setText(text6.c_str()); menuLayout->addWidget(timerLabel); // Add menu and view to main layout QHBoxLayout* layout = new QHBoxLayout; layout->addLayout(menuLayout); layout->addWidget(viewOrig); layout->addWidget(view); mWidget->setLayout(layout); }