Mercurial > hg > orthanc-stone
view Applications/Samples/LayoutPetCtFusionApplication.h @ 1186:3284c3fd96ad broker
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 22 Nov 2019 09:51:47 +0100 |
parents | b70e9be013e4 |
children | 2d8ab34c8c91 |
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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/>. **/ #pragma once #include "SampleInteractor.h" #include "../../Framework/Layers/ReferenceLineFactory.h" #include "../../Framework/Layers/DicomStructureSetSlicer.h" #include "../../Framework/Widgets/LayoutWidget.h" #include <Core/Logging.h> namespace OrthancStone { namespace Samples { class LayoutPetCtFusionApplication : public SampleApplicationBase, public LayeredSceneWidget::ISliceObserver, public WorldSceneWidget::IWorldObserver { private: class Interactor : public SampleInteractor { private: LayoutPetCtFusionApplication& that_; public: Interactor(LayoutPetCtFusionApplication& that, VolumeImage& volume, VolumeProjection projection, bool reverse) : SampleInteractor(volume, projection, reverse), that_(that) { } virtual IWorldSceneMouseTracker* CreateMouseTracker(WorldSceneWidget& widget, const SliceGeometry& slice, const ViewportGeometry& view, MouseButton button, double x, double y, IStatusBar* statusBar) { if (button == MouseButton_Left) { // Center the sibling views over the clicked point Vector p = slice.MapSliceToWorldCoordinates(x, y); if (statusBar != NULL) { char buf[64]; sprintf(buf, "Click on coordinates (%.02f,%.02f,%.02f) in cm", p[0] / 10.0, p[1] / 10.0, p[2] / 10.0); statusBar->SetMessage(buf); } that_.interactorAxial_->LookupSliceContainingPoint(*that_.ctAxial_, p); that_.interactorCoronal_->LookupSliceContainingPoint(*that_.ctCoronal_, p); that_.interactorSagittal_->LookupSliceContainingPoint(*that_.ctSagittal_, p); } return NULL; } virtual void KeyPressed(WorldSceneWidget& widget, char key, KeyboardModifiers modifiers, IStatusBar* statusBar) { if (key == 's') { that_.FitContent(); } } }; bool processingEvent_; Interactor* interactorAxial_; Interactor* interactorCoronal_; Interactor* interactorSagittal_; LayeredSceneWidget* ctAxial_; LayeredSceneWidget* ctCoronal_; LayeredSceneWidget* ctSagittal_; LayeredSceneWidget* petAxial_; LayeredSceneWidget* petCoronal_; LayeredSceneWidget* petSagittal_; LayeredSceneWidget* fusionAxial_; LayeredSceneWidget* fusionCoronal_; LayeredSceneWidget* fusionSagittal_; void FitContent() { petAxial_->FitContent(); petCoronal_->FitContent(); petSagittal_->FitContent(); } void AddLayer(LayeredSceneWidget& widget, VolumeImage& volume, bool isCt) { size_t layer; widget.AddLayer(layer, new VolumeImage::LayerFactory(volume)); if (isCt) { RenderStyle style; style.windowing_ = ImageWindowing_Bone; widget.SetLayerStyle(layer, style); } else { RenderStyle style; style.applyLut_ = true; style.alpha_ = (layer == 0 ? 1.0f : 0.5f); widget.SetLayerStyle(layer, style); } } void ConnectSiblingLocations(LayeredSceneWidget& axial, LayeredSceneWidget& coronal, LayeredSceneWidget& sagittal) { ReferenceLineFactory::Configure(axial, coronal); ReferenceLineFactory::Configure(axial, sagittal); ReferenceLineFactory::Configure(coronal, sagittal); } void SynchronizeView(const WorldSceneWidget& source, const ViewportGeometry& view, LayeredSceneWidget& widget1, LayeredSceneWidget& widget2, LayeredSceneWidget& widget3) { if (&source == &widget1 || &source == &widget2 || &source == &widget3) { if (&source != &widget1) { widget1.SetView(view); } if (&source != &widget2) { widget2.SetView(view); } if (&source != &widget3) { widget3.SetView(view); } } } void SynchronizeSlice(const LayeredSceneWidget& source, const SliceGeometry& slice, LayeredSceneWidget& widget1, LayeredSceneWidget& widget2, LayeredSceneWidget& widget3) { if (&source == &widget1 || &source == &widget2 || &source == &widget3) { if (&source != &widget1) { widget1.SetSlice(slice); } if (&source != &widget2) { widget2.SetSlice(slice); } if (&source != &widget3) { widget3.SetSlice(slice); } } } LayeredSceneWidget* CreateWidget() { std::auto_ptr<LayeredSceneWidget> widget(new LayeredSceneWidget); widget->Register(dynamic_cast<WorldSceneWidget::IWorldObserver&>(*this)); widget->Register(dynamic_cast<LayeredSceneWidget::ISliceObserver&>(*this)); return widget.release(); } void CreateLayout(BasicApplicationContext& context) { std::auto_ptr<OrthancStone::LayoutWidget> layout(new OrthancStone::LayoutWidget); layout->SetBackgroundCleared(true); //layout->SetBackgroundColor(255,0,0); layout->SetPadding(5); OrthancStone::LayoutWidget& layoutA = dynamic_cast<OrthancStone::LayoutWidget&> (layout->AddWidget(new OrthancStone::LayoutWidget)); layoutA.SetPadding(0, 0, 0, 0, 5); layoutA.SetVertical(); petAxial_ = &dynamic_cast<LayeredSceneWidget&>(layoutA.AddWidget(CreateWidget())); OrthancStone::LayoutWidget& layoutA2 = dynamic_cast<OrthancStone::LayoutWidget&> (layoutA.AddWidget(new OrthancStone::LayoutWidget)); layoutA2.SetPadding(0, 0, 0, 0, 5); petSagittal_ = &dynamic_cast<LayeredSceneWidget&>(layoutA2.AddWidget(CreateWidget())); petCoronal_ = &dynamic_cast<LayeredSceneWidget&>(layoutA2.AddWidget(CreateWidget())); OrthancStone::LayoutWidget& layoutB = dynamic_cast<OrthancStone::LayoutWidget&> (layout->AddWidget(new OrthancStone::LayoutWidget)); layoutB.SetPadding(0, 0, 0, 0, 5); layoutB.SetVertical(); ctAxial_ = &dynamic_cast<LayeredSceneWidget&>(layoutB.AddWidget(CreateWidget())); OrthancStone::LayoutWidget& layoutB2 = dynamic_cast<OrthancStone::LayoutWidget&> (layoutB.AddWidget(new OrthancStone::LayoutWidget)); layoutB2.SetPadding(0, 0, 0, 0, 5); ctSagittal_ = &dynamic_cast<LayeredSceneWidget&>(layoutB2.AddWidget(CreateWidget())); ctCoronal_ = &dynamic_cast<LayeredSceneWidget&>(layoutB2.AddWidget(CreateWidget())); OrthancStone::LayoutWidget& layoutC = dynamic_cast<OrthancStone::LayoutWidget&> (layout->AddWidget(new OrthancStone::LayoutWidget)); layoutC.SetPadding(0, 0, 0, 0, 5); layoutC.SetVertical(); fusionAxial_ = &dynamic_cast<LayeredSceneWidget&>(layoutC.AddWidget(CreateWidget())); OrthancStone::LayoutWidget& layoutC2 = dynamic_cast<OrthancStone::LayoutWidget&> (layoutC.AddWidget(new OrthancStone::LayoutWidget)); layoutC2.SetPadding(0, 0, 0, 0, 5); fusionSagittal_ = &dynamic_cast<LayeredSceneWidget&>(layoutC2.AddWidget(CreateWidget())); fusionCoronal_ = &dynamic_cast<LayeredSceneWidget&>(layoutC2.AddWidget(CreateWidget())); context.SetCentralWidget(layout.release()); } public: virtual void DeclareCommandLineOptions(boost::program_options::options_description& options) { boost::program_options::options_description generic("Sample options"); generic.add_options() ("ct", boost::program_options::value<std::string>(), "Orthanc ID of the CT series") ("pet", boost::program_options::value<std::string>(), "Orthanc ID of the PET series") ("rt", boost::program_options::value<std::string>(), "Orthanc ID of the DICOM RT-STRUCT series (optional)") ("threads", boost::program_options::value<unsigned int>()->default_value(3), "Number of download threads for the CT series") ; options.add(generic); } virtual void Initialize(BasicApplicationContext& context, IStatusBar& statusBar, const boost::program_options::variables_map& parameters) { using namespace OrthancStone; processingEvent_ = true; if (parameters.count("ct") != 1 || parameters.count("pet") != 1) { LOG(ERROR) << "The series ID is missing"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } std::string ct = parameters["ct"].as<std::string>(); std::string pet = parameters["pet"].as<std::string>(); unsigned int threads = parameters["threads"].as<unsigned int>(); VolumeImage& ctVolume = context.AddSeriesVolume(ct, true /* progressive download */, threads); VolumeImage& petVolume = context.AddSeriesVolume(pet, true /* progressive download */, 1); // Take the PET volume as the reference for the slices interactorAxial_ = &dynamic_cast<Interactor&> (context.AddInteractor(new Interactor(*this, petVolume, VolumeProjection_Axial, false))); interactorCoronal_ = &dynamic_cast<Interactor&> (context.AddInteractor(new Interactor(*this, petVolume, VolumeProjection_Coronal, false))); interactorSagittal_ = &dynamic_cast<Interactor&> (context.AddInteractor(new Interactor(*this, petVolume, VolumeProjection_Sagittal, true))); CreateLayout(context); AddLayer(*ctAxial_, ctVolume, true); AddLayer(*ctCoronal_, ctVolume, true); AddLayer(*ctSagittal_, ctVolume, true); AddLayer(*petAxial_, petVolume, false); AddLayer(*petCoronal_, petVolume, false); AddLayer(*petSagittal_, petVolume, false); AddLayer(*fusionAxial_, ctVolume, true); AddLayer(*fusionAxial_, petVolume, false); AddLayer(*fusionCoronal_, ctVolume, true); AddLayer(*fusionCoronal_, petVolume, false); AddLayer(*fusionSagittal_, ctVolume, true); AddLayer(*fusionSagittal_, petVolume, false); if (parameters.count("rt") == 1) { DicomStructureSet& rtStruct = context.AddStructureSet(parameters["rt"].as<std::string>()); Vector p = rtStruct.GetStructureCenter(0); interactorAxial_->GetCursor().LookupSliceContainingPoint(p); ctAxial_->AddLayer(new DicomStructureSetSlicer(rtStruct)); petAxial_->AddLayer(new DicomStructureSetSlicer(rtStruct)); fusionAxial_->AddLayer(new DicomStructureSetSlicer(rtStruct)); } ConnectSiblingLocations(*ctAxial_, *ctCoronal_, *ctSagittal_); ConnectSiblingLocations(*petAxial_, *petCoronal_, *petSagittal_); ConnectSiblingLocations(*fusionAxial_, *fusionCoronal_, *fusionSagittal_); interactorAxial_->AddWidget(*ctAxial_); interactorAxial_->AddWidget(*petAxial_); interactorAxial_->AddWidget(*fusionAxial_); interactorCoronal_->AddWidget(*ctCoronal_); interactorCoronal_->AddWidget(*petCoronal_); interactorCoronal_->AddWidget(*fusionCoronal_); interactorSagittal_->AddWidget(*ctSagittal_); interactorSagittal_->AddWidget(*petSagittal_); interactorSagittal_->AddWidget(*fusionSagittal_); processingEvent_ = false; statusBar.SetMessage("Use the key \"t\" to toggle the fullscreen mode"); statusBar.SetMessage("Use the key \"s\" to reinitialize the layout"); } virtual void NotifySizeChange(const WorldSceneWidget& source, ViewportGeometry& view) { view.FitContent(); } virtual void NotifyViewChange(const WorldSceneWidget& source, const ViewportGeometry& view) { if (!processingEvent_) // Avoid reentrant calls { processingEvent_ = true; SynchronizeView(source, view, *ctAxial_, *petAxial_, *fusionAxial_); SynchronizeView(source, view, *ctCoronal_, *petCoronal_, *fusionCoronal_); SynchronizeView(source, view, *ctSagittal_, *petSagittal_, *fusionSagittal_); processingEvent_ = false; } } virtual void NotifySliceContentChange(const LayeredSceneWidget& source, const SliceGeometry& slice) { if (!processingEvent_) // Avoid reentrant calls { processingEvent_ = true; SynchronizeSlice(source, slice, *ctAxial_, *petAxial_, *fusionAxial_); SynchronizeSlice(source, slice, *ctCoronal_, *petCoronal_, *fusionCoronal_); SynchronizeSlice(source, slice, *ctSagittal_, *petSagittal_, *fusionSagittal_); processingEvent_ = false; } } }; } }