Mercurial > hg > orthanc-stone
view Applications/Samples/rt-viewer-demo/main.cpp @ 574:911297a277c4
AffineTransform2D::ConvertToOpenGLMatrix()
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Thu, 18 Apr 2019 18:06:29 +0200 |
parents | 1d9deb4ee84c |
children | 70992b38aa8a |
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/** * Stone of Orthanc * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2019 Osimis S.A., Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Affero General Public License * as published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "Applications/IStoneApplication.h" #include "Framework/Widgets/WorldSceneWidget.h" #include "Framework/Widgets/LayoutWidget.h" #if ORTHANC_ENABLE_WASM==1 #include "Platforms/Wasm/WasmPlatformApplicationAdapter.h" #include "Platforms/Wasm/Defaults.h" #include "Platforms/Wasm/WasmViewport.h" #endif #if ORTHANC_ENABLE_QT==1 #include "Qt/SampleMainWindow.h" #include "Qt/SampleMainWindowWithButtons.h" #endif #include "Framework/Layers/DicomSeriesVolumeSlicer.h" #include "Framework/Widgets/SliceViewerWidget.h" #include "Framework/Volumes/StructureSetLoader.h" #include <Core/Logging.h> #include <Core/OrthancException.h> #include <Core/Images/ImageTraits.h> #include <boost/math/constants/constants.hpp> #include "Framework/dev.h" #include "Framework/Widgets/LayoutWidget.h" #include "Framework/Layers/DicomStructureSetSlicer.h" namespace OrthancStone { namespace Samples { class RtViewerDemoBaseApplication : public IStoneApplication { protected: // ownership is transferred to the application context #ifndef RESTORE_NON_RTVIEWERDEMO_BEHAVIOR LayoutWidget* mainWidget_; #else WorldSceneWidget* mainWidget_; #endif public: virtual void Initialize(StoneApplicationContext* context, IStatusBar& statusBar, const boost::program_options::variables_map& parameters) ORTHANC_OVERRIDE { } virtual std::string GetTitle() const ORTHANC_OVERRIDE { return "Stone of Orthanc - Sample"; } /** * In the basic samples, the commands are handled by the platform adapter and NOT * by the application handler */ virtual void HandleSerializedMessage(const char* data) ORTHANC_OVERRIDE {}; virtual void Finalize() ORTHANC_OVERRIDE {} virtual IWidget* GetCentralWidget() ORTHANC_OVERRIDE {return mainWidget_;} #if ORTHANC_ENABLE_WASM==1 // default implementations for a single canvas named "canvas" in the HTML and an empty WasmApplicationAdapter virtual void InitializeWasm() ORTHANC_OVERRIDE { AttachWidgetToWasmViewport("canvas", mainWidget_); } virtual WasmPlatformApplicationAdapter* CreateWasmApplicationAdapter(MessageBroker& broker) { return new WasmPlatformApplicationAdapter(broker, *this); } #endif }; // this application actually works in Qt and WASM class RtViewerDemoBaseSingleCanvasWithButtonsApplication : public RtViewerDemoBaseApplication { public: virtual void OnPushButton1Clicked() {} virtual void OnPushButton2Clicked() {} virtual void OnTool1Clicked() {} virtual void OnTool2Clicked() {} virtual void GetButtonNames(std::string& pushButton1, std::string& pushButton2, std::string& tool1, std::string& tool2 ) { pushButton1 = "action1"; pushButton2 = "action2"; tool1 = "tool1"; tool2 = "tool2"; } #if ORTHANC_ENABLE_QT==1 virtual QStoneMainWindow* CreateQtMainWindow() { return new SampleMainWindowWithButtons(dynamic_cast<OrthancStone::NativeStoneApplicationContext&>(*context_), *this); } #endif }; // this application actually works in SDL and WASM class RtViewerDemoBaseApplicationSingleCanvas : public RtViewerDemoBaseApplication { public: #if ORTHANC_ENABLE_QT==1 virtual QStoneMainWindow* CreateQtMainWindow() { return new SampleMainWindow(dynamic_cast<OrthancStone::NativeStoneApplicationContext&>(*context_), *this); } #endif }; } } namespace OrthancStone { namespace Samples { template <Orthanc::PixelFormat T> void ReadDistributionInternal(std::vector<float>& distribution, const Orthanc::ImageAccessor& image) { const unsigned int width = image.GetWidth(); const unsigned int height = image.GetHeight(); distribution.resize(width * height); size_t pos = 0; for (unsigned int y = 0; y < height; y++) { for (unsigned int x = 0; x < width; x++, pos++) { distribution[pos] = Orthanc::ImageTraits<T>::GetFloatPixel(image, x, y); } } } void ReadDistribution(std::vector<float>& distribution, const Orthanc::ImageAccessor& image) { switch (image.GetFormat()) { case Orthanc::PixelFormat_Grayscale8: ReadDistributionInternal<Orthanc::PixelFormat_Grayscale8>(distribution, image); break; case Orthanc::PixelFormat_Grayscale16: ReadDistributionInternal<Orthanc::PixelFormat_Grayscale16>(distribution, image); break; case Orthanc::PixelFormat_SignedGrayscale16: ReadDistributionInternal<Orthanc::PixelFormat_SignedGrayscale16>(distribution, image); break; case Orthanc::PixelFormat_Grayscale32: ReadDistributionInternal<Orthanc::PixelFormat_Grayscale32>(distribution, image); break; case Orthanc::PixelFormat_Grayscale64: ReadDistributionInternal<Orthanc::PixelFormat_Grayscale64>(distribution, image); break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } } class DoseInteractor : public VolumeImageInteractor { private: SliceViewerWidget& widget_; size_t layer_; DicomFrameConverter converter_; protected: virtual void NotifySliceChange(const ISlicedVolume& slicedVolume, const size_t& sliceIndex, const Slice& slice) { converter_ = slice.GetConverter(); #if 0 const OrthancVolumeImage& volume = dynamic_cast<const OrthancVolumeImage&>(slicedVolume); RenderStyle s = widget_.GetLayerStyle(layer_); if (volume.FitWindowingToRange(s, slice.GetConverter())) { printf("Windowing: %f => %f\n", s.customWindowCenter_, s.customWindowWidth_); widget_.SetLayerStyle(layer_, s); } #endif } virtual void NotifyVolumeReady(const ISlicedVolume& slicedVolume) { const float percentile = 0.01f; const OrthancVolumeImage& volume = dynamic_cast<const OrthancVolumeImage&>(slicedVolume); std::vector<float> distribution; ReadDistribution(distribution, volume.GetImage().GetInternalImage()); std::sort(distribution.begin(), distribution.end()); int start = static_cast<int>(std::ceil(distribution.size() * percentile)); int end = static_cast<int>(std::floor(distribution.size() * (1.0f - percentile))); float a = 0; float b = 0; if (start < end && start >= 0 && end < static_cast<int>(distribution.size())) { a = distribution[start]; b = distribution[end]; } else if (!distribution.empty()) { // Too small distribution: Use full range a = distribution.front(); b = distribution.back(); } //printf("%f %f\n", a, b); RenderStyle s = widget_.GetLayerStyle(layer_); s.windowing_ = ImageWindowing_Custom; s.customWindowCenter_ = static_cast<float>(converter_.Apply((a + b) / 2.0f)); s.customWindowWidth_ = static_cast<float>(converter_.Apply(b - a)); // 96.210556 => 192.421112 widget_.SetLayerStyle(layer_, s); printf("Windowing: %f => %f\n", s.customWindowCenter_, s.customWindowWidth_); } public: DoseInteractor(MessageBroker& broker, OrthancVolumeImage& volume, SliceViewerWidget& widget, VolumeProjection projection, size_t layer) : VolumeImageInteractor(broker, volume, widget, projection), widget_(widget), layer_(layer) { } }; class RtViewerDemoApplication : public RtViewerDemoBaseApplicationSingleCanvas, public IObserver { public: std::vector<std::pair<SliceViewerWidget*, size_t> > doseCtWidgetLayerPairs_; std::list<OrthancStone::IWorldSceneInteractor*> interactors_; class Interactor : public IWorldSceneInteractor { private: RtViewerDemoApplication& application_; public: Interactor(RtViewerDemoApplication& application) : application_(application) { } virtual IWorldSceneMouseTracker* CreateMouseTracker(WorldSceneWidget& widget, const ViewportGeometry& view, MouseButton button, KeyboardModifiers modifiers, int viewportX, int viewportY, double x, double y, IStatusBar* statusBar, const std::vector<Touch>& displayTouches) { return NULL; } virtual void MouseOver(CairoContext& context, WorldSceneWidget& widget, const ViewportGeometry& view, double x, double y, IStatusBar* statusBar) { if (statusBar != NULL) { Vector p = dynamic_cast<SliceViewerWidget&>(widget).GetSlice().MapSliceToWorldCoordinates(x, y); char buf[64]; sprintf(buf, "X = %.02f Y = %.02f Z = %.02f (in cm)", p[0] / 10.0, p[1] / 10.0, p[2] / 10.0); statusBar->SetMessage(buf); } } virtual void MouseWheel(WorldSceneWidget& widget, MouseWheelDirection direction, KeyboardModifiers modifiers, IStatusBar* statusBar) { int scale = (modifiers & KeyboardModifiers_Control ? 10 : 1); switch (direction) { case MouseWheelDirection_Up: application_.OffsetSlice(-scale); break; case MouseWheelDirection_Down: application_.OffsetSlice(scale); break; default: break; } } virtual void KeyPressed(WorldSceneWidget& widget, KeyboardKeys key, char keyChar, KeyboardModifiers modifiers, IStatusBar* statusBar) { switch (keyChar) { case 's': // TODO: recursively traverse children widget.FitContent(); break; default: break; } } }; void OffsetSlice(int offset) { if (source_ != NULL) { int slice = static_cast<int>(slice_) + offset; if (slice < 0) { slice = 0; } if (slice >= static_cast<int>(source_->GetSliceCount())) { slice = static_cast<int>(source_->GetSliceCount()) - 1; } if (slice != static_cast<int>(slice_)) { SetSlice(slice); } } } SliceViewerWidget& GetMainWidget() { return *dynamic_cast<SliceViewerWidget*>(mainWidget_); } void SetSlice(size_t index) { if (source_ != NULL && index < source_->GetSliceCount()) { slice_ = static_cast<unsigned int>(index); #if 1 GetMainWidget().SetSlice(source_->GetSlice(slice_).GetGeometry()); #else // TEST for scene extents - Rotate the axes double a = 15.0 / 180.0 * boost::math::constants::pi<double>(); #if 1 Vector x; GeometryToolbox::AssignVector(x, cos(a), sin(a), 0); Vector y; GeometryToolbox::AssignVector(y, -sin(a), cos(a), 0); #else // Flip the normal Vector x; GeometryToolbox::AssignVector(x, cos(a), sin(a), 0); Vector y; GeometryToolbox::AssignVector(y, sin(a), -cos(a), 0); #endif SliceGeometry s(source_->GetSlice(slice_).GetGeometry().GetOrigin(), x, y); widget_->SetSlice(s); #endif } } void OnMainWidgetGeometryReady(const IVolumeSlicer::GeometryReadyMessage& message) { // Once the geometry of the series is downloaded from Orthanc, // display its middle slice, and adapt the viewport to fit this // slice if (source_ == &message.GetOrigin()) { SetSlice(source_->GetSliceCount() / 2); } GetMainWidget().FitContent(); } DicomFrameConverter converter_; void OnSliceContentChangedMessage(const ISlicedVolume::SliceContentChangedMessage& message) { converter_ = message.GetSlice().GetConverter(); } void OnVolumeReadyMessage(const ISlicedVolume::VolumeReadyMessage& message) { const float percentile = 0.01f; auto& slicedVolume = message.GetOrigin(); const OrthancVolumeImage& volume = dynamic_cast<const OrthancVolumeImage&>(slicedVolume); std::vector<float> distribution; ReadDistribution(distribution, volume.GetImage().GetInternalImage()); std::sort(distribution.begin(), distribution.end()); int start = static_cast<int>(std::ceil(distribution.size() * percentile)); int end = static_cast<int>(std::floor(distribution.size() * (1.0f - percentile))); float a = 0; float b = 0; if (start < end && start >= 0 && end < static_cast<int>(distribution.size())) { a = distribution[start]; b = distribution[end]; } else if (!distribution.empty()) { // Too small distribution: Use full range a = distribution.front(); b = distribution.back(); } //printf("WINDOWING %f %f\n", a, b); for (const auto& pair : doseCtWidgetLayerPairs_) { auto widget = pair.first; auto layer = pair.second; RenderStyle s = widget->GetLayerStyle(layer); s.windowing_ = ImageWindowing_Custom; s.customWindowCenter_ = static_cast<float>(converter_.Apply((a + b) / 2.0f)); s.customWindowWidth_ = static_cast<float>(converter_.Apply(b - a)); // 96.210556 => 192.421112 widget->SetLayerStyle(layer, s); printf("Windowing: %f => %f\n", s.customWindowCenter_, s.customWindowWidth_); } } size_t AddDoseLayer(SliceViewerWidget& widget, OrthancVolumeImage& volume, VolumeProjection projection); void AddStructLayer( SliceViewerWidget& widget, StructureSetLoader& loader); SliceViewerWidget* CreateDoseCtWidget( std::auto_ptr<OrthancVolumeImage>& ct, std::auto_ptr<OrthancVolumeImage>& dose, std::auto_ptr<StructureSetLoader>& structLoader, VolumeProjection projection); void AddCtLayer(SliceViewerWidget& widget, OrthancVolumeImage& volume); std::auto_ptr<Interactor> mainWidgetInteractor_; const DicomSeriesVolumeSlicer* source_; unsigned int slice_; std::string ctSeries_; std::string doseInstance_; std::string doseSeries_; std::string structInstance_; std::auto_ptr<OrthancStone::OrthancVolumeImage> dose_; std::auto_ptr<OrthancStone::OrthancVolumeImage> ct_; std::auto_ptr<OrthancStone::StructureSetLoader> struct_; public: RtViewerDemoApplication(MessageBroker& broker) : IObserver(broker), source_(NULL), slice_(0) { } /* dev options on bgo xps15 COMMAND LINE --ct-series=a04ecf01-79b2fc33-58239f7e-ad9db983-28e81afa --dose-instance=830a69ff-8e4b5ee3-b7f966c8-bccc20fb-d322dceb --struct-instance=54460695-ba3885ee-ddf61ac0-f028e31d-a6e474d9 URL PARAMETERS ?ct-series=a04ecf01-79b2fc33-58239f7e-ad9db983-28e81afa&dose-instance=830a69ff-8e4b5ee3-b7f966c8-bccc20fb-d322dceb&struct-instance=54460695-ba3885ee-ddf61ac0-f028e31d-a6e474d9 */ void ParseParameters(const boost::program_options::variables_map& parameters) { // CT series { if (parameters.count("ct-series") != 1) { LOG(ERROR) << "There must be exactly one CT series specified"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } ctSeries_ = parameters["ct-series"].as<std::string>(); } // RTDOSE { if (parameters.count("dose-instance") == 1) { doseInstance_ = parameters["dose-instance"].as<std::string>(); } else { #ifdef BGO_NOT_IMPLEMENTED_YET // Dose series if (parameters.count("dose-series") != 1) { LOG(ERROR) << "the RTDOSE series is missing"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } doseSeries_ = parameters["ct"].as<std::string>(); #endif LOG(ERROR) << "the RTSTRUCT instance is missing"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } // RTSTRUCT { if (parameters.count("struct-instance") == 1) { structInstance_ = parameters["struct-instance"].as<std::string>(); } else { #ifdef BGO_NOT_IMPLEMENTED_YET // Struct series if (parameters.count("struct-series") != 1) { LOG(ERROR) << "the RTSTRUCT series is missing"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } structSeries_ = parametersstruct - series"].as<std::string>(); #endif LOG(ERROR) << "the RTSTRUCT instance is missing"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } } virtual void DeclareStartupOptions(boost::program_options::options_description& options) { boost::program_options::options_description generic("RtViewerDemo options. Please note that some of these options are mutually exclusive"); generic.add_options() ("ct-series", boost::program_options::value<std::string>(),"Orthanc ID of the CT series") ("dose-instance", boost::program_options::value<std::string>(), "Orthanc ID of the RTDOSE instance (incompatible with dose-series)") ("dose-series", boost::program_options::value<std::string>(), "NOT IMPLEMENTED YET. Orthanc ID of the RTDOSE series (incompatible with dose-instance)") ("struct-instance", boost::program_options::value<std::string>(), "Orthanc ID of the RTSTRUCT instance (incompatible with struct-series)") ("struct-series", boost::program_options::value<std::string>(), "NOT IMPLEMENTED YET. Orthanc ID of the RTSTRUCT (incompatible with struct-instance)") ("smooth", boost::program_options::value<bool>()->default_value(true),"Enable bilinear image smoothing") ; options.add(generic); } virtual void Initialize( StoneApplicationContext* context, IStatusBar& statusBar, const boost::program_options::variables_map& parameters) { using namespace OrthancStone; ParseParameters(parameters); context_ = context; statusBar.SetMessage("Use the key \"s\" to reinitialize the layout"); if (!ctSeries_.empty()) { printf("CT = [%s]\n", ctSeries_.c_str()); ct_.reset(new OrthancStone::OrthancVolumeImage( IObserver::GetBroker(), context->GetOrthancApiClient(), false)); ct_->ScheduleLoadSeries(ctSeries_); //ct_->ScheduleLoadSeries("a04ecf01-79b2fc33-58239f7e-ad9db983-28e81afa"); // IBA //ct_->ScheduleLoadSeries("03677739-1d8bca40-db1daf59-d74ff548-7f6fc9c0"); // 0522c0001 TCIA } if (!doseSeries_.empty() || !doseInstance_.empty()) { dose_.reset(new OrthancStone::OrthancVolumeImage( IObserver::GetBroker(), context->GetOrthancApiClient(), true)); dose_->RegisterObserverCallback( new Callable<RtViewerDemoApplication, ISlicedVolume::VolumeReadyMessage> (*this, &RtViewerDemoApplication::OnVolumeReadyMessage)); dose_->RegisterObserverCallback( new Callable<RtViewerDemoApplication, ISlicedVolume::SliceContentChangedMessage> (*this, &RtViewerDemoApplication::OnSliceContentChangedMessage)); if (doseInstance_.empty()) { dose_->ScheduleLoadSeries(doseSeries_); } else { dose_->ScheduleLoadInstance(doseInstance_); } //dose_->ScheduleLoadInstance("830a69ff-8e4b5ee3-b7f966c8-bccc20fb-d322dceb"); // IBA 1 //dose_->ScheduleLoadInstance("269f26f4-0c83eeeb-2e67abbd-5467a40f-f1bec90c"); // 0522c0001 TCIA } if (!structInstance_.empty()) { struct_.reset(new OrthancStone::StructureSetLoader( IObserver::GetBroker(), context->GetOrthancApiClient())); struct_->ScheduleLoadInstance(structInstance_); //struct_->ScheduleLoadInstance("54460695-ba3885ee-ddf61ac0-f028e31d-a6e474d9"); // IBA //struct_->ScheduleLoadInstance("17cd032b-ad92a438-ca05f06a-f9e96668-7e3e9e20"); // 0522c0001 TCIA } mainWidget_ = new LayoutWidget("main-layout"); mainWidget_->SetBackgroundColor(0, 0, 0); mainWidget_->SetBackgroundCleared(true); mainWidget_->SetPadding(0); auto axialWidget = CreateDoseCtWidget (ct_, dose_, struct_, OrthancStone::VolumeProjection_Axial); mainWidget_->AddWidget(axialWidget); std::auto_ptr<OrthancStone::LayoutWidget> subLayout( new OrthancStone::LayoutWidget("main-layout")); subLayout->SetVertical(); subLayout->SetPadding(5); auto coronalWidget = CreateDoseCtWidget (ct_, dose_, struct_, OrthancStone::VolumeProjection_Coronal); subLayout->AddWidget(coronalWidget); auto sagittalWidget = CreateDoseCtWidget (ct_, dose_, struct_, OrthancStone::VolumeProjection_Sagittal); subLayout->AddWidget(sagittalWidget); mainWidget_->AddWidget(subLayout.release()); } }; size_t RtViewerDemoApplication::AddDoseLayer( SliceViewerWidget& widget, OrthancVolumeImage& volume, VolumeProjection projection) { size_t layer = widget.AddLayer( new VolumeImageMPRSlicer(IObserver::GetBroker(), volume)); RenderStyle s; //s.drawGrid_ = true; s.SetColor(255, 0, 0); // Draw missing PET layer in red s.alpha_ = 0.3f; s.applyLut_ = true; s.lut_ = Orthanc::EmbeddedResources::COLORMAP_JET; s.interpolation_ = ImageInterpolation_Bilinear; widget.SetLayerStyle(layer, s); return layer; } void RtViewerDemoApplication::AddStructLayer( SliceViewerWidget& widget, StructureSetLoader& loader) { widget.AddLayer(new DicomStructureSetSlicer( IObserver::GetBroker(), loader)); } SliceViewerWidget* RtViewerDemoApplication::CreateDoseCtWidget( std::auto_ptr<OrthancVolumeImage>& ct, std::auto_ptr<OrthancVolumeImage>& dose, std::auto_ptr<StructureSetLoader>& structLoader, VolumeProjection projection) { std::auto_ptr<OrthancStone::SliceViewerWidget> widget( new OrthancStone::SliceViewerWidget(IObserver::GetBroker(), "ct-dose-widget")); if (ct.get() != NULL) { AddCtLayer(*widget, *ct); } if (dose.get() != NULL) { size_t layer = AddDoseLayer(*widget, *dose, projection); // we need to store the dose rendering widget because we'll update them // according to various asynchronous events doseCtWidgetLayerPairs_.push_back(std::make_pair(widget.get(), layer)); #if 0 interactors_.push_back(new VolumeImageInteractor( IObserver::GetBroker(), *dose, *widget, projection)); #else interactors_.push_back(new DoseInteractor( IObserver::GetBroker(), *dose, *widget, projection, layer)); #endif } else if (ct.get() != NULL) { interactors_.push_back( new VolumeImageInteractor( IObserver::GetBroker(), *ct, *widget, projection)); } if (structLoader.get() != NULL) { AddStructLayer(*widget, *structLoader); } return widget.release(); } void RtViewerDemoApplication::AddCtLayer( SliceViewerWidget& widget, OrthancVolumeImage& volume) { size_t layer = widget.AddLayer( new VolumeImageMPRSlicer(IObserver::GetBroker(), volume)); RenderStyle s; //s.drawGrid_ = true; s.alpha_ = 1; s.windowing_ = ImageWindowing_Bone; widget.SetLayerStyle(layer, s); } } } #if ORTHANC_ENABLE_WASM==1 #include "Platforms/Wasm/WasmWebService.h" #include "Platforms/Wasm/WasmViewport.h" #include <emscripten/emscripten.h> //#include "SampleList.h" OrthancStone::IStoneApplication* CreateUserApplication(OrthancStone::MessageBroker& broker) { return new OrthancStone::Samples::RtViewerDemoApplication(broker); } OrthancStone::WasmPlatformApplicationAdapter* CreateWasmApplicationAdapter(OrthancStone::MessageBroker& broker, OrthancStone::IStoneApplication* application) { return dynamic_cast<OrthancStone::Samples::RtViewerDemoApplication*>(application)->CreateWasmApplicationAdapter(broker); } #else //#include "SampleList.h" #if ORTHANC_ENABLE_SDL==1 #include "Applications/Sdl/SdlStoneApplicationRunner.h" #endif #if ORTHANC_ENABLE_QT==1 #include "Applications/Qt/SampleQtApplicationRunner.h" #endif #include "Framework/Messages/MessageBroker.h" int main(int argc, char* argv[]) { OrthancStone::MessageBroker broker; OrthancStone::Samples::RtViewerDemoApplication sampleStoneApplication(broker); #if ORTHANC_ENABLE_SDL==1 OrthancStone::SdlStoneApplicationRunner sdlApplicationRunner(broker, sampleStoneApplication); return sdlApplicationRunner.Execute(argc, argv); #endif #if ORTHANC_ENABLE_QT==1 OrthancStone::Samples::SampleQtApplicationRunner qtAppRunner(broker, sampleStoneApplication); return qtAppRunner.Execute(argc, argv); #endif } #endif