Mercurial > hg > orthanc-stone
view Applications/StoneWebViewer/WebAssembly/StoneWebViewer.cpp @ 1591:5887a4f8594b
moving platform-specific files out of the "OrthancStone" folder
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 23 Oct 2020 13:15:03 +0200 |
parents | c6b29bf58914 |
children | b782f78aed42 |
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/** * Stone of Orthanc * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2020 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 <emscripten.h> #define DISPATCH_JAVASCRIPT_EVENT(name) \ EM_ASM( \ const customEvent = document.createEvent("CustomEvent"); \ customEvent.initCustomEvent(name, false, false, undefined); \ window.dispatchEvent(customEvent); \ ); #define EXTERN_CATCH_EXCEPTIONS \ catch (Orthanc::OrthancException& e) \ { \ LOG(ERROR) << "OrthancException: " << e.What(); \ DISPATCH_JAVASCRIPT_EVENT("StoneException"); \ } \ catch (OrthancStone::StoneException& e) \ { \ LOG(ERROR) << "StoneException: " << e.What(); \ DISPATCH_JAVASCRIPT_EVENT("StoneException"); \ } \ catch (std::exception& e) \ { \ LOG(ERROR) << "Runtime error: " << e.what(); \ DISPATCH_JAVASCRIPT_EVENT("StoneException"); \ } \ catch (...) \ { \ LOG(ERROR) << "Native exception"; \ DISPATCH_JAVASCRIPT_EVENT("StoneException"); \ } // Orthanc framework includes #include <Cache/MemoryObjectCache.h> #include <DicomFormat/DicomArray.h> #include <DicomParsing/ParsedDicomFile.h> #include <Images/Image.h> #include <Images/ImageProcessing.h> #include <Images/JpegReader.h> #include <Logging.h> // Stone includes #include <Loaders/DicomResourcesLoader.h> #include <Loaders/SeriesMetadataLoader.h> #include <Loaders/SeriesThumbnailsLoader.h> #include <Messages/ObserverBase.h> #include <Oracle/ParseDicomFromWadoCommand.h> #include <Oracle/ParseDicomSuccessMessage.h> #include <Scene2D/ColorTextureSceneLayer.h> #include <Scene2D/FloatTextureSceneLayer.h> #include <Scene2D/PolylineSceneLayer.h> #include <Scene2DViewport/ViewportController.h> #include <StoneException.h> #include <Toolbox/DicomInstanceParameters.h> #include <Toolbox/GeometryToolbox.h> #include <Toolbox/SortedFrames.h> #include <Viewport/DefaultViewportInteractor.h> // WebAssembly includes #include <WebAssemblyCairoViewport.h> #include <WebAssemblyLoadersContext.h> #include <WebGLViewport.h> #include <boost/make_shared.hpp> #include <stdio.h> enum EMSCRIPTEN_KEEPALIVE ThumbnailType { ThumbnailType_Image, ThumbnailType_NoPreview, ThumbnailType_Pdf, ThumbnailType_Video, ThumbnailType_Loading, ThumbnailType_Unknown }; enum EMSCRIPTEN_KEEPALIVE DisplayedFrameQuality { DisplayedFrameQuality_None, DisplayedFrameQuality_Low, DisplayedFrameQuality_High }; enum EMSCRIPTEN_KEEPALIVE WebViewerAction { WebViewerAction_GrayscaleWindowing, WebViewerAction_Zoom, WebViewerAction_Pan, WebViewerAction_Rotate, WebViewerAction_Crosshair }; static OrthancStone::MouseAction ConvertWebViewerAction(int action) { switch (action) { case WebViewerAction_GrayscaleWindowing: return OrthancStone::MouseAction_GrayscaleWindowing; case WebViewerAction_Zoom: return OrthancStone::MouseAction_Zoom; case WebViewerAction_Pan: return OrthancStone::MouseAction_Pan; case WebViewerAction_Rotate: return OrthancStone::MouseAction_Rotate; case WebViewerAction_Crosshair: return OrthancStone::MouseAction_None; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } static const int PRIORITY_HIGH = -100; static const int PRIORITY_LOW = 100; static const int PRIORITY_NORMAL = 0; static const unsigned int QUALITY_JPEG = 0; static const unsigned int QUALITY_FULL = 1; class ResourcesLoader : public OrthancStone::ObserverBase<ResourcesLoader> { public: class IObserver : public boost::noncopyable { public: virtual ~IObserver() { } virtual void SignalResourcesLoaded() = 0; virtual void SignalSeriesThumbnailLoaded(const std::string& studyInstanceUid, const std::string& seriesInstanceUid) = 0; virtual void SignalSeriesMetadataLoaded(const std::string& studyInstanceUid, const std::string& seriesInstanceUid) = 0; }; private: std::unique_ptr<IObserver> observer_; OrthancStone::DicomSource source_; size_t pending_; boost::shared_ptr<OrthancStone::LoadedDicomResources> studies_; boost::shared_ptr<OrthancStone::LoadedDicomResources> series_; boost::shared_ptr<OrthancStone::DicomResourcesLoader> resourcesLoader_; boost::shared_ptr<OrthancStone::SeriesThumbnailsLoader> thumbnailsLoader_; boost::shared_ptr<OrthancStone::SeriesMetadataLoader> metadataLoader_; explicit ResourcesLoader(const OrthancStone::DicomSource& source) : source_(source), pending_(0), studies_(new OrthancStone::LoadedDicomResources(Orthanc::DICOM_TAG_STUDY_INSTANCE_UID)), series_(new OrthancStone::LoadedDicomResources(Orthanc::DICOM_TAG_SERIES_INSTANCE_UID)) { } void Handle(const OrthancStone::DicomResourcesLoader::SuccessMessage& message) { const Orthanc::SingleValueObject<Orthanc::ResourceType>& payload = dynamic_cast<const Orthanc::SingleValueObject<Orthanc::ResourceType>&>(message.GetUserPayload()); OrthancStone::LoadedDicomResources& dicom = *message.GetResources(); LOG(INFO) << "resources loaded: " << dicom.GetSize() << ", " << Orthanc::EnumerationToString(payload.GetValue()); if (payload.GetValue() == Orthanc::ResourceType_Series) { for (size_t i = 0; i < dicom.GetSize(); i++) { std::string studyInstanceUid, seriesInstanceUid; if (dicom.GetResource(i).LookupStringValue( studyInstanceUid, Orthanc::DICOM_TAG_STUDY_INSTANCE_UID, false) && dicom.GetResource(i).LookupStringValue( seriesInstanceUid, Orthanc::DICOM_TAG_SERIES_INSTANCE_UID, false)) { thumbnailsLoader_->ScheduleLoadThumbnail(source_, "", studyInstanceUid, seriesInstanceUid); metadataLoader_->ScheduleLoadSeries(PRIORITY_LOW + 1, source_, studyInstanceUid, seriesInstanceUid); } } } if (pending_ == 0) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } else { pending_ --; if (pending_ == 0 && observer_.get() != NULL) { observer_->SignalResourcesLoaded(); } } } void Handle(const OrthancStone::SeriesThumbnailsLoader::SuccessMessage& message) { if (observer_.get() != NULL) { observer_->SignalSeriesThumbnailLoaded( message.GetStudyInstanceUid(), message.GetSeriesInstanceUid()); } } void Handle(const OrthancStone::SeriesMetadataLoader::SuccessMessage& message) { if (observer_.get() != NULL) { observer_->SignalSeriesMetadataLoaded( message.GetStudyInstanceUid(), message.GetSeriesInstanceUid()); } } void FetchInternal(const std::string& studyInstanceUid, const std::string& seriesInstanceUid) { // Firstly, load the study Orthanc::DicomMap filter; filter.SetValue(Orthanc::DICOM_TAG_STUDY_INSTANCE_UID, studyInstanceUid, false); std::set<Orthanc::DicomTag> tags; tags.insert(Orthanc::DICOM_TAG_STUDY_DESCRIPTION); // Necessary for Orthanc DICOMweb plugin resourcesLoader_->ScheduleQido( studies_, PRIORITY_HIGH, source_, Orthanc::ResourceType_Study, filter, tags, new Orthanc::SingleValueObject<Orthanc::ResourceType>(Orthanc::ResourceType_Study)); // Secondly, load the series if (!seriesInstanceUid.empty()) { filter.SetValue(Orthanc::DICOM_TAG_SERIES_INSTANCE_UID, seriesInstanceUid, false); } tags.insert(Orthanc::DICOM_TAG_SERIES_NUMBER); // Necessary for Google Cloud Platform resourcesLoader_->ScheduleQido( series_, PRIORITY_HIGH, source_, Orthanc::ResourceType_Series, filter, tags, new Orthanc::SingleValueObject<Orthanc::ResourceType>(Orthanc::ResourceType_Series)); pending_ += 2; } public: static boost::shared_ptr<ResourcesLoader> Create(OrthancStone::ILoadersContext::ILock& lock, const OrthancStone::DicomSource& source) { boost::shared_ptr<ResourcesLoader> loader(new ResourcesLoader(source)); loader->resourcesLoader_ = OrthancStone::DicomResourcesLoader::Create(lock); loader->thumbnailsLoader_ = OrthancStone::SeriesThumbnailsLoader::Create(lock, PRIORITY_LOW); loader->metadataLoader_ = OrthancStone::SeriesMetadataLoader::Create(lock); loader->Register<OrthancStone::DicomResourcesLoader::SuccessMessage>( *loader->resourcesLoader_, &ResourcesLoader::Handle); loader->Register<OrthancStone::SeriesThumbnailsLoader::SuccessMessage>( *loader->thumbnailsLoader_, &ResourcesLoader::Handle); loader->Register<OrthancStone::SeriesMetadataLoader::SuccessMessage>( *loader->metadataLoader_, &ResourcesLoader::Handle); return loader; } void FetchAllStudies() { FetchInternal("", ""); } void FetchStudy(const std::string& studyInstanceUid) { FetchInternal(studyInstanceUid, ""); } void FetchSeries(const std::string& studyInstanceUid, const std::string& seriesInstanceUid) { FetchInternal(studyInstanceUid, seriesInstanceUid); } size_t GetStudiesCount() const { return studies_->GetSize(); } size_t GetSeriesCount() const { return series_->GetSize(); } void GetStudy(Orthanc::DicomMap& target, size_t i) { target.Assign(studies_->GetResource(i)); } void GetSeries(Orthanc::DicomMap& target, size_t i) { target.Assign(series_->GetResource(i)); // Complement with the study-level tags std::string studyInstanceUid; if (target.LookupStringValue(studyInstanceUid, Orthanc::DICOM_TAG_STUDY_INSTANCE_UID, false) && studies_->HasResource(studyInstanceUid)) { studies_->MergeResource(target, studyInstanceUid); } } OrthancStone::SeriesThumbnailType GetSeriesThumbnail(std::string& image, std::string& mime, const std::string& seriesInstanceUid) { return thumbnailsLoader_->GetSeriesThumbnail(image, mime, seriesInstanceUid); } void FetchSeriesMetadata(int priority, const std::string& studyInstanceUid, const std::string& seriesInstanceUid) { metadataLoader_->ScheduleLoadSeries(priority, source_, studyInstanceUid, seriesInstanceUid); } bool IsSeriesComplete(const std::string& seriesInstanceUid) { OrthancStone::SeriesMetadataLoader::Accessor accessor(*metadataLoader_, seriesInstanceUid); return accessor.IsComplete(); } bool SortSeriesFrames(OrthancStone::SortedFrames& target, const std::string& seriesInstanceUid) { OrthancStone::SeriesMetadataLoader::Accessor accessor(*metadataLoader_, seriesInstanceUid); if (accessor.IsComplete()) { target.Clear(); for (size_t i = 0; i < accessor.GetInstancesCount(); i++) { target.AddInstance(accessor.GetInstance(i)); } target.Sort(); return true; } else { return false; } } void AcquireObserver(IObserver* observer) { observer_.reset(observer); } }; class FramesCache : public boost::noncopyable { private: class CachedImage : public Orthanc::ICacheable { private: std::unique_ptr<Orthanc::ImageAccessor> image_; unsigned int quality_; public: CachedImage(Orthanc::ImageAccessor* image, unsigned int quality) : image_(image), quality_(quality) { assert(image != NULL); } virtual size_t GetMemoryUsage() const ORTHANC_OVERRIDE { assert(image_.get() != NULL); return (image_->GetBytesPerPixel() * image_->GetPitch() * image_->GetHeight()); } const Orthanc::ImageAccessor& GetImage() const { assert(image_.get() != NULL); return *image_; } unsigned int GetQuality() const { return quality_; } }; static std::string GetKey(const std::string& sopInstanceUid, size_t frameIndex) { return sopInstanceUid + "|" + boost::lexical_cast<std::string>(frameIndex); } Orthanc::MemoryObjectCache cache_; public: FramesCache() { SetMaximumSize(100 * 1024 * 1024); // 100 MB } size_t GetMaximumSize() { return cache_.GetMaximumSize(); } void SetMaximumSize(size_t size) { cache_.SetMaximumSize(size); } /** * Returns "true" iff the provided image has better quality than the * previously cached one, or if no cache was previously available. **/ bool Acquire(const std::string& sopInstanceUid, size_t frameIndex, Orthanc::ImageAccessor* image /* transfer ownership */, unsigned int quality) { std::unique_ptr<Orthanc::ImageAccessor> protection(image); if (image == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } else if (image->GetFormat() != Orthanc::PixelFormat_Float32 && image->GetFormat() != Orthanc::PixelFormat_RGB24) { throw Orthanc::OrthancException(Orthanc::ErrorCode_IncompatibleImageFormat); } const std::string& key = GetKey(sopInstanceUid, frameIndex); bool invalidate = false; { /** * Access the previous cached entry, with side effect of tagging * it as the most recently accessed frame (update of LRU recycling) **/ Orthanc::MemoryObjectCache::Accessor accessor(cache_, key, false /* unique lock */); if (accessor.IsValid()) { const CachedImage& previous = dynamic_cast<const CachedImage&>(accessor.GetValue()); // There is already a cached image for this frame if (previous.GetQuality() < quality) { // The previously stored image has poorer quality invalidate = true; } else { // No update in the quality, don't change the cache return false; } } else { invalidate = false; } } if (invalidate) { cache_.Invalidate(key); } cache_.Acquire(key, new CachedImage(protection.release(), quality)); return true; } class Accessor : public boost::noncopyable { private: Orthanc::MemoryObjectCache::Accessor accessor_; const CachedImage& GetCachedImage() const { if (IsValid()) { return dynamic_cast<CachedImage&>(accessor_.GetValue()); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } public: Accessor(FramesCache& that, const std::string& sopInstanceUid, size_t frameIndex) : accessor_(that.cache_, GetKey(sopInstanceUid, frameIndex), false /* shared lock */) { } bool IsValid() const { return accessor_.IsValid(); } const Orthanc::ImageAccessor& GetImage() const { return GetCachedImage().GetImage(); } unsigned int GetQuality() const { return GetCachedImage().GetQuality(); } }; }; class SeriesCursor : public boost::noncopyable { public: enum Action { Action_FastPlus, Action_Plus, Action_None, Action_Minus, Action_FastMinus }; private: std::vector<size_t> prefetch_; int framesCount_; int currentFrame_; bool isCircular_; int fastDelta_; Action lastAction_; int ComputeNextFrame(int currentFrame, Action action) const { if (framesCount_ == 0) { assert(currentFrame == 0); return 0; } int nextFrame = currentFrame; switch (action) { case Action_FastPlus: nextFrame += fastDelta_; break; case Action_Plus: nextFrame += 1; break; case Action_None: break; case Action_Minus: nextFrame -= 1; break; case Action_FastMinus: nextFrame -= fastDelta_; break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } if (isCircular_) { while (nextFrame < 0) { nextFrame += framesCount_; } while (nextFrame >= framesCount_) { nextFrame -= framesCount_; } } else { if (nextFrame < 0) { nextFrame = 0; } else if (nextFrame >= framesCount_) { nextFrame = framesCount_ - 1; } } return nextFrame; } void UpdatePrefetch() { /** * This method will order the frames of the series according to * the number of "actions" (i.e. mouse wheels) that are necessary * to reach them, starting from the current frame. It is assumed * that once one action is done, it is more likely that the user * will do the same action just afterwards. **/ prefetch_.clear(); if (framesCount_ == 0) { return; } prefetch_.reserve(framesCount_); // Breadth-first search using a FIFO. The queue associates a frame // and the action that is the most likely in this frame typedef std::list< std::pair<int, Action> > Queue; Queue queue; std::set<int> visited; // Frames that have already been visited queue.push_back(std::make_pair(currentFrame_, lastAction_)); while (!queue.empty()) { int frame = queue.front().first; Action previousAction = queue.front().second; queue.pop_front(); if (visited.find(frame) == visited.end()) { visited.insert(frame); prefetch_.push_back(frame); switch (previousAction) { case Action_None: case Action_Plus: queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Plus), Action_Plus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Minus), Action_Minus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastPlus), Action_FastPlus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastMinus), Action_FastMinus)); break; case Action_Minus: queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Minus), Action_Minus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Plus), Action_Plus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastMinus), Action_FastMinus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastPlus), Action_FastPlus)); break; case Action_FastPlus: queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastPlus), Action_FastPlus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastMinus), Action_FastMinus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Plus), Action_Plus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Minus), Action_Minus)); break; case Action_FastMinus: queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastMinus), Action_FastMinus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_FastPlus), Action_FastPlus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Minus), Action_Minus)); queue.push_back(std::make_pair(ComputeNextFrame(frame, Action_Plus), Action_Plus)); break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } } assert(prefetch_.size() == framesCount_); } bool CheckFrameIndex(int frame) const { return ((framesCount_ == 0 && frame == 0) || (framesCount_ > 0 && frame >= 0 && frame < framesCount_)); } public: explicit SeriesCursor(size_t framesCount) : framesCount_(framesCount), currentFrame_(framesCount / 2), // Start at the middle frame isCircular_(false), lastAction_(Action_None) { SetFastDelta(framesCount / 20); UpdatePrefetch(); } void SetCircular(bool isCircular) { isCircular_ = isCircular; UpdatePrefetch(); } void SetFastDelta(int delta) { fastDelta_ = (delta < 0 ? -delta : delta); if (fastDelta_ <= 0) { fastDelta_ = 1; } } void SetCurrentIndex(size_t frame) { if (frame >= framesCount_) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } else { currentFrame_ = frame; lastAction_ = Action_None; UpdatePrefetch(); } } size_t GetCurrentIndex() const { assert(CheckFrameIndex(currentFrame_)); return static_cast<size_t>(currentFrame_); } void Apply(Action action) { currentFrame_ = ComputeNextFrame(currentFrame_, action); lastAction_ = action; UpdatePrefetch(); } size_t GetPrefetchSize() const { assert(prefetch_.size() == framesCount_); return prefetch_.size(); } size_t GetPrefetchFrameIndex(size_t i) const { if (i >= prefetch_.size()) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } else { assert(CheckFrameIndex(prefetch_[i])); return static_cast<size_t>(prefetch_[i]); } } }; class FrameGeometry { private: bool isValid_; std::string frameOfReferenceUid_; OrthancStone::CoordinateSystem3D coordinates_; double pixelSpacingX_; double pixelSpacingY_; OrthancStone::Extent2D extent_; public: explicit FrameGeometry() : isValid_(false), pixelSpacingX_(1), pixelSpacingY_(1) { } explicit FrameGeometry(const Orthanc::DicomMap& tags) : isValid_(false), coordinates_(tags) { if (!tags.LookupStringValue( frameOfReferenceUid_, Orthanc::DICOM_TAG_FRAME_OF_REFERENCE_UID, false)) { frameOfReferenceUid_.clear(); } OrthancStone::GeometryToolbox::GetPixelSpacing(pixelSpacingX_, pixelSpacingY_, tags); unsigned int rows, columns; if (tags.HasTag(Orthanc::DICOM_TAG_IMAGE_POSITION_PATIENT) && tags.HasTag(Orthanc::DICOM_TAG_IMAGE_ORIENTATION_PATIENT) && tags.ParseUnsignedInteger32(rows, Orthanc::DICOM_TAG_ROWS) && tags.ParseUnsignedInteger32(columns, Orthanc::DICOM_TAG_COLUMNS)) { double ox = -pixelSpacingX_ / 2.0; double oy = -pixelSpacingY_ / 2.0; extent_.AddPoint(ox, oy); extent_.AddPoint(ox + pixelSpacingX_ * static_cast<double>(columns), oy + pixelSpacingY_ * static_cast<double>(rows)); isValid_ = true; } } bool IsValid() const { return isValid_; } const std::string& GetFrameOfReferenceUid() const { if (isValid_) { return frameOfReferenceUid_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } const OrthancStone::CoordinateSystem3D& GetCoordinates() const { if (isValid_) { return coordinates_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } double GetPixelSpacingX() const { if (isValid_) { return pixelSpacingX_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } double GetPixelSpacingY() const { if (isValid_) { return pixelSpacingY_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } bool Intersect(double& x1, // Coordinates of the clipped line (out) double& y1, double& x2, double& y2, const FrameGeometry& other) const { if (this == &other) { return false; } OrthancStone::Vector direction, origin; if (IsValid() && other.IsValid() && !extent_.IsEmpty() && frameOfReferenceUid_ == other.frameOfReferenceUid_ && OrthancStone::GeometryToolbox::IntersectTwoPlanes( origin, direction, coordinates_.GetOrigin(), coordinates_.GetNormal(), other.coordinates_.GetOrigin(), other.coordinates_.GetNormal())) { double ax, ay, bx, by; coordinates_.ProjectPoint(ax, ay, origin); coordinates_.ProjectPoint(bx, by, origin + 100.0 * direction); return OrthancStone::GeometryToolbox::ClipLineToRectangle( x1, y1, x2, y2, ax, ay, bx, by, extent_.GetX1(), extent_.GetY1(), extent_.GetX2(), extent_.GetY2()); } else { return false; } } }; class ViewerViewport : public OrthancStone::ObserverBase<ViewerViewport> { public: class IObserver : public boost::noncopyable { public: virtual ~IObserver() { } virtual void SignalFrameUpdated(const ViewerViewport& viewport, size_t currentFrame, size_t countFrames, DisplayedFrameQuality quality) = 0; }; private: static const int LAYER_TEXTURE = 0; static const int LAYER_REFERENCE_LINES = 1; class ICommand : public Orthanc::IDynamicObject { private: boost::shared_ptr<ViewerViewport> viewport_; public: explicit ICommand(boost::shared_ptr<ViewerViewport> viewport) : viewport_(viewport) { if (viewport == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } } virtual ~ICommand() { } ViewerViewport& GetViewport() const { assert(viewport_ != NULL); return *viewport_; } virtual void Handle(const OrthancStone::DicomResourcesLoader::SuccessMessage& message) const { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } virtual void Handle(const OrthancStone::HttpCommand::SuccessMessage& message) const { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } virtual void Handle(const OrthancStone::ParseDicomSuccessMessage& message) const { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } }; class SetDefaultWindowingCommand : public ICommand { public: explicit SetDefaultWindowingCommand(boost::shared_ptr<ViewerViewport> viewport) : ICommand(viewport) { } virtual void Handle(const OrthancStone::DicomResourcesLoader::SuccessMessage& message) const ORTHANC_OVERRIDE { if (message.GetResources()->GetSize() != 1) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NetworkProtocol); } const Orthanc::DicomMap& dicom = message.GetResources()->GetResource(0); { OrthancStone::DicomInstanceParameters params(dicom); if (params.HasDefaultWindowing()) { GetViewport().defaultWindowingCenter_ = params.GetDefaultWindowingCenter(); GetViewport().defaultWindowingWidth_ = params.GetDefaultWindowingWidth(); LOG(INFO) << "Default windowing: " << params.GetDefaultWindowingCenter() << "," << params.GetDefaultWindowingWidth(); GetViewport().windowingCenter_ = params.GetDefaultWindowingCenter(); GetViewport().windowingWidth_ = params.GetDefaultWindowingWidth(); } else { LOG(INFO) << "No default windowing"; GetViewport().ResetDefaultWindowing(); } } GetViewport().DisplayCurrentFrame(); } }; class SetLowQualityFrame : public ICommand { private: std::string sopInstanceUid_; unsigned int frameIndex_; float windowCenter_; float windowWidth_; bool isMonochrome1_; bool isPrefetch_; public: SetLowQualityFrame(boost::shared_ptr<ViewerViewport> viewport, const std::string& sopInstanceUid, unsigned int frameIndex, float windowCenter, float windowWidth, bool isMonochrome1, bool isPrefetch) : ICommand(viewport), sopInstanceUid_(sopInstanceUid), frameIndex_(frameIndex), windowCenter_(windowCenter), windowWidth_(windowWidth), isMonochrome1_(isMonochrome1), isPrefetch_(isPrefetch) { } virtual void Handle(const OrthancStone::HttpCommand::SuccessMessage& message) const ORTHANC_OVERRIDE { std::unique_ptr<Orthanc::JpegReader> jpeg(new Orthanc::JpegReader); jpeg->ReadFromMemory(message.GetAnswer()); bool updatedCache; switch (jpeg->GetFormat()) { case Orthanc::PixelFormat_RGB24: updatedCache = GetViewport().cache_->Acquire( sopInstanceUid_, frameIndex_, jpeg.release(), QUALITY_JPEG); break; case Orthanc::PixelFormat_Grayscale8: { if (isMonochrome1_) { Orthanc::ImageProcessing::Invert(*jpeg); } std::unique_ptr<Orthanc::Image> converted( new Orthanc::Image(Orthanc::PixelFormat_Float32, jpeg->GetWidth(), jpeg->GetHeight(), false)); Orthanc::ImageProcessing::Convert(*converted, *jpeg); /** Orthanc::ImageProcessing::ShiftScale() computes "(x + offset) * scaling". The system to solve is thus: (0 + offset) * scaling = windowingCenter - windowingWidth / 2 [a] (255 + offset) * scaling = windowingCenter + windowingWidth / 2 [b] Resolution: [b - a] => 255 * scaling = windowingWidth [a] => offset = (windowingCenter - windowingWidth / 2) / scaling **/ const float scaling = windowWidth_ / 255.0f; const float offset = (OrthancStone::LinearAlgebra::IsCloseToZero(scaling) ? 0 : (windowCenter_ - windowWidth_ / 2.0f) / scaling); Orthanc::ImageProcessing::ShiftScale(*converted, offset, scaling, false); updatedCache = GetViewport().cache_->Acquire( sopInstanceUid_, frameIndex_, converted.release(), QUALITY_JPEG); break; } default: throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } if (updatedCache) { GetViewport().SignalUpdatedFrame(sopInstanceUid_, frameIndex_); } if (isPrefetch_) { GetViewport().ScheduleNextPrefetch(); } } }; class SetFullDicomFrame : public ICommand { private: std::string sopInstanceUid_; unsigned int frameIndex_; bool isPrefetch_; public: SetFullDicomFrame(boost::shared_ptr<ViewerViewport> viewport, const std::string& sopInstanceUid, unsigned int frameIndex, bool isPrefetch) : ICommand(viewport), sopInstanceUid_(sopInstanceUid), frameIndex_(frameIndex), isPrefetch_(isPrefetch) { } virtual void Handle(const OrthancStone::ParseDicomSuccessMessage& message) const ORTHANC_OVERRIDE { Orthanc::DicomMap tags; message.GetDicom().ExtractDicomSummary(tags, ORTHANC_STONE_MAX_TAG_LENGTH); std::string s; if (!tags.LookupStringValue(s, Orthanc::DICOM_TAG_SOP_INSTANCE_UID, false)) { // Safety check throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } std::unique_ptr<Orthanc::ImageAccessor> frame(message.GetDicom().DecodeFrame(frameIndex_)); if (frame.get() == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } bool updatedCache; if (frame->GetFormat() == Orthanc::PixelFormat_RGB24) { updatedCache = GetViewport().cache_->Acquire( sopInstanceUid_, frameIndex_, frame.release(), QUALITY_FULL); } else { double a = 1; double b = 0; double doseScaling; if (tags.ParseDouble(doseScaling, Orthanc::DICOM_TAG_DOSE_GRID_SCALING)) { a = doseScaling; } double rescaleIntercept, rescaleSlope; if (tags.ParseDouble(rescaleIntercept, Orthanc::DICOM_TAG_RESCALE_INTERCEPT) && tags.ParseDouble(rescaleSlope, Orthanc::DICOM_TAG_RESCALE_SLOPE)) { a *= rescaleSlope; b = rescaleIntercept; } std::unique_ptr<Orthanc::ImageAccessor> converted( new Orthanc::Image(Orthanc::PixelFormat_Float32, frame->GetWidth(), frame->GetHeight(), false)); Orthanc::ImageProcessing::Convert(*converted, *frame); Orthanc::ImageProcessing::ShiftScale2(*converted, b, a, false); updatedCache = GetViewport().cache_->Acquire( sopInstanceUid_, frameIndex_, converted.release(), QUALITY_FULL); } if (updatedCache) { GetViewport().SignalUpdatedFrame(sopInstanceUid_, frameIndex_); } if (isPrefetch_) { GetViewport().ScheduleNextPrefetch(); } } }; class PrefetchItem { private: size_t frameIndex_; bool isFull_; public: PrefetchItem(size_t frameIndex, bool isFull) : frameIndex_(frameIndex), isFull_(isFull) { } size_t GetFrameIndex() const { return frameIndex_; } bool IsFull() const { return isFull_; } }; std::unique_ptr<IObserver> observer_; OrthancStone::ILoadersContext& context_; boost::shared_ptr<OrthancStone::WebAssemblyViewport> viewport_; boost::shared_ptr<OrthancStone::DicomResourcesLoader> loader_; OrthancStone::DicomSource source_; boost::shared_ptr<FramesCache> cache_; std::unique_ptr<OrthancStone::SortedFrames> frames_; std::unique_ptr<SeriesCursor> cursor_; float windowingCenter_; float windowingWidth_; float defaultWindowingCenter_; float defaultWindowingWidth_; bool inverted_; bool flipX_; bool flipY_; bool fitNextContent_; bool isCtrlDown_; FrameGeometry currentFrameGeometry_; std::list<PrefetchItem> prefetchQueue_; void ScheduleNextPrefetch() { while (!prefetchQueue_.empty()) { size_t index = prefetchQueue_.front().GetFrameIndex(); bool isFull = prefetchQueue_.front().IsFull(); prefetchQueue_.pop_front(); const std::string sopInstanceUid = frames_->GetFrameSopInstanceUid(index); unsigned int frame = frames_->GetFrameIndex(index); { FramesCache::Accessor accessor(*cache_, sopInstanceUid, frame); if (!accessor.IsValid() || (isFull && accessor.GetQuality() == 0)) { if (isFull) { ScheduleLoadFullDicomFrame(index, PRIORITY_NORMAL, true); } else { ScheduleLoadRenderedFrame(index, PRIORITY_NORMAL, true); } return; } } } } void ResetDefaultWindowing() { defaultWindowingCenter_ = 128; defaultWindowingWidth_ = 256; windowingCenter_ = defaultWindowingCenter_; windowingWidth_ = defaultWindowingWidth_; inverted_ = false; } void SignalUpdatedFrame(const std::string& sopInstanceUid, unsigned int frameIndex) { if (cursor_.get() != NULL && frames_.get() != NULL) { size_t index = cursor_->GetCurrentIndex(); if (frames_->GetFrameSopInstanceUid(index) == sopInstanceUid && frames_->GetFrameIndex(index) == frameIndex) { DisplayCurrentFrame(); } } } void DisplayCurrentFrame() { DisplayedFrameQuality quality = DisplayedFrameQuality_None; if (cursor_.get() != NULL && frames_.get() != NULL) { const size_t index = cursor_->GetCurrentIndex(); unsigned int cachedQuality; if (!DisplayFrame(cachedQuality, index)) { // This frame is not cached yet: Load it if (source_.HasDicomWebRendered()) { ScheduleLoadRenderedFrame(index, PRIORITY_HIGH, false /* not a prefetch */); } else { ScheduleLoadFullDicomFrame(index, PRIORITY_HIGH, false /* not a prefetch */); } } else if (cachedQuality < QUALITY_FULL) { // This frame is only available in low-res: Download the full DICOM ScheduleLoadFullDicomFrame(index, PRIORITY_HIGH, false /* not a prefetch */); quality = DisplayedFrameQuality_Low; } else { quality = DisplayedFrameQuality_High; } currentFrameGeometry_ = FrameGeometry(frames_->GetFrameTags(index)); { // Prepare prefetching prefetchQueue_.clear(); for (size_t i = 0; i < cursor_->GetPrefetchSize() && i < 16; i++) { size_t a = cursor_->GetPrefetchFrameIndex(i); if (a != index) { prefetchQueue_.push_back(PrefetchItem(a, i < 2)); } } ScheduleNextPrefetch(); } if (observer_.get() != NULL) { observer_->SignalFrameUpdated(*this, cursor_->GetCurrentIndex(), frames_->GetFramesCount(), quality); } } else { currentFrameGeometry_ = FrameGeometry(); } } void ClearViewport() { { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); lock->GetController().GetScene().DeleteLayer(LAYER_TEXTURE); //lock->GetCompositor().Refresh(lock->GetController().GetScene()); lock->Invalidate(); } } void SaveCurrentWindowing() { // Save the current windowing (that could have been altered by // GrayscaleWindowingSceneTracker), so that it can be reused // by the next frames std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); OrthancStone::Scene2D& scene = lock->GetController().GetScene(); if (scene.HasLayer(LAYER_TEXTURE) && scene.GetLayer(LAYER_TEXTURE).GetType() == OrthancStone::ISceneLayer::Type_FloatTexture) { OrthancStone::FloatTextureSceneLayer& layer = dynamic_cast<OrthancStone::FloatTextureSceneLayer&>(scene.GetLayer(LAYER_TEXTURE)); layer.GetWindowing(windowingCenter_, windowingWidth_); } } bool DisplayFrame(unsigned int& quality, size_t index) { if (frames_.get() == NULL) { return false; } const std::string sopInstanceUid = frames_->GetFrameSopInstanceUid(index); unsigned int frame = frames_->GetFrameIndex(index); FramesCache::Accessor accessor(*cache_, sopInstanceUid, frame); if (accessor.IsValid()) { SaveCurrentWindowing(); quality = accessor.GetQuality(); std::unique_ptr<OrthancStone::TextureBaseSceneLayer> layer; switch (accessor.GetImage().GetFormat()) { case Orthanc::PixelFormat_RGB24: layer.reset(new OrthancStone::ColorTextureSceneLayer(accessor.GetImage())); break; case Orthanc::PixelFormat_Float32: { std::unique_ptr<OrthancStone::FloatTextureSceneLayer> tmp( new OrthancStone::FloatTextureSceneLayer(accessor.GetImage())); tmp->SetCustomWindowing(windowingCenter_, windowingWidth_); tmp->SetInverted(inverted_ ^ frames_->IsFrameMonochrome1(index)); layer.reset(tmp.release()); break; } default: throw Orthanc::OrthancException(Orthanc::ErrorCode_IncompatibleImageFormat); } layer->SetLinearInterpolation(true); layer->SetFlipX(flipX_); layer->SetFlipY(flipY_); double pixelSpacingX, pixelSpacingY; OrthancStone::GeometryToolbox::GetPixelSpacing( pixelSpacingX, pixelSpacingY, frames_->GetFrameTags(index)); layer->SetPixelSpacing(pixelSpacingX, pixelSpacingY); if (layer.get() == NULL) { return false; } else { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); OrthancStone::Scene2D& scene = lock->GetController().GetScene(); scene.SetLayer(LAYER_TEXTURE, layer.release()); if (fitNextContent_) { lock->RefreshCanvasSize(); lock->GetCompositor().FitContent(scene); fitNextContent_ = false; } //lock->GetCompositor().Refresh(scene); lock->Invalidate(); return true; } } else { return false; } } void ScheduleLoadFullDicomFrame(size_t index, int priority, bool isPrefetch) { if (frames_.get() != NULL) { std::string sopInstanceUid = frames_->GetFrameSopInstanceUid(index); unsigned int frame = frames_->GetFrameIndex(index); { std::unique_ptr<OrthancStone::ILoadersContext::ILock> lock(context_.Lock()); lock->Schedule( GetSharedObserver(), priority, OrthancStone::ParseDicomFromWadoCommand::Create( source_, frames_->GetStudyInstanceUid(), frames_->GetSeriesInstanceUid(), sopInstanceUid, false /* transcoding (TODO) */, Orthanc::DicomTransferSyntax_LittleEndianExplicit /* TODO */, new SetFullDicomFrame(GetSharedObserver(), sopInstanceUid, frame, isPrefetch))); } } } void ScheduleLoadRenderedFrame(size_t index, int priority, bool isPrefetch) { if (!source_.HasDicomWebRendered()) { ScheduleLoadFullDicomFrame(index, priority, isPrefetch); } else if (frames_.get() != NULL) { std::string sopInstanceUid = frames_->GetFrameSopInstanceUid(index); unsigned int frame = frames_->GetFrameIndex(index); bool isMonochrome1 = frames_->IsFrameMonochrome1(index); const std::string uri = ("studies/" + frames_->GetStudyInstanceUid() + "/series/" + frames_->GetSeriesInstanceUid() + "/instances/" + sopInstanceUid + "/frames/" + boost::lexical_cast<std::string>(frame + 1) + "/rendered"); std::map<std::string, std::string> headers, arguments; arguments["window"] = ( boost::lexical_cast<std::string>(windowingCenter_) + "," + boost::lexical_cast<std::string>(windowingWidth_) + ",linear"); std::unique_ptr<OrthancStone::IOracleCommand> command( source_.CreateDicomWebCommand( uri, arguments, headers, new SetLowQualityFrame( GetSharedObserver(), sopInstanceUid, frame, windowingCenter_, windowingWidth_, isMonochrome1, isPrefetch))); { std::unique_ptr<OrthancStone::ILoadersContext::ILock> lock(context_.Lock()); lock->Schedule(GetSharedObserver(), priority, command.release()); } } } void UpdateCurrentTextureParameters() { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); if (lock->GetController().GetScene().HasLayer(LAYER_TEXTURE)) { if (lock->GetController().GetScene().GetLayer(LAYER_TEXTURE).GetType() == OrthancStone::ISceneLayer::Type_FloatTexture) { dynamic_cast<OrthancStone::FloatTextureSceneLayer&>( lock->GetController().GetScene().GetLayer(LAYER_TEXTURE)). SetCustomWindowing(windowingCenter_, windowingWidth_); } { OrthancStone::TextureBaseSceneLayer& layer = dynamic_cast<OrthancStone::TextureBaseSceneLayer&>( lock->GetController().GetScene().GetLayer(LAYER_TEXTURE)); layer.SetFlipX(flipX_); layer.SetFlipY(flipY_); } lock->Invalidate(); } } ViewerViewport(OrthancStone::ILoadersContext& context, const OrthancStone::DicomSource& source, const std::string& canvas, boost::shared_ptr<FramesCache> cache, bool softwareRendering) : context_(context), source_(source), cache_(cache), fitNextContent_(true), isCtrlDown_(false), flipX_(false), flipY_(false) { if (!cache_) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } if (softwareRendering) { LOG(INFO) << "Creating Cairo viewport in canvas: " << canvas; viewport_ = OrthancStone::WebAssemblyCairoViewport::Create(canvas); } else { LOG(INFO) << "Creating WebGL viewport in canvas: " << canvas; viewport_ = OrthancStone::WebGLViewport::Create(canvas); } emscripten_set_wheel_callback(viewport_->GetCanvasCssSelector().c_str(), this, true, OnWheel); emscripten_set_keydown_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, this, false, OnKey); emscripten_set_keyup_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, this, false, OnKey); ResetDefaultWindowing(); /*{ std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); std::unique_ptr<OrthancStone::PolylineSceneLayer> layer(new OrthancStone::PolylineSceneLayer); OrthancStone::PolylineSceneLayer::Chain chain; chain.push_back(OrthancStone::ScenePoint2D(-10, 0)); chain.push_back(OrthancStone::ScenePoint2D(10, 0)); layer->AddChain(chain, false, 255, 0, 0); chain.clear(); chain.push_back(OrthancStone::ScenePoint2D(0, -10)); chain.push_back(OrthancStone::ScenePoint2D(0, 10)); layer->AddChain(chain, false, 255, 0, 0); chain.clear(); chain.push_back(OrthancStone::ScenePoint2D(40, 30)); chain.push_back(OrthancStone::ScenePoint2D(40, 50)); layer->AddChain(chain, false, 255, 0, 0); chain.clear(); chain.push_back(OrthancStone::ScenePoint2D(30, 40)); chain.push_back(OrthancStone::ScenePoint2D(50, 40)); layer->AddChain(chain, false, 255, 0, 0); lock->GetController().GetScene().SetLayer(1000, layer.release()); lock->Invalidate(); }*/ } static EM_BOOL OnKey(int eventType, const EmscriptenKeyboardEvent *event, void *userData) { /** * WARNING: There is a problem with Firefox 71 that seems to mess * the "ctrlKey" value. **/ ViewerViewport& that = *reinterpret_cast<ViewerViewport*>(userData); that.isCtrlDown_ = event->ctrlKey; return false; } static EM_BOOL OnWheel(int eventType, const EmscriptenWheelEvent *wheelEvent, void *userData) { ViewerViewport& that = *reinterpret_cast<ViewerViewport*>(userData); if (that.cursor_.get() != NULL) { if (wheelEvent->deltaY < 0) { that.ChangeFrame(that.isCtrlDown_ ? SeriesCursor::Action_FastMinus : SeriesCursor::Action_Minus); } else if (wheelEvent->deltaY > 0) { that.ChangeFrame(that.isCtrlDown_ ? SeriesCursor::Action_FastPlus : SeriesCursor::Action_Plus); } } return true; } void Handle(const OrthancStone::DicomResourcesLoader::SuccessMessage& message) { dynamic_cast<const ICommand&>(message.GetUserPayload()).Handle(message); } void Handle(const OrthancStone::HttpCommand::SuccessMessage& message) { dynamic_cast<const ICommand&>(message.GetOrigin().GetPayload()).Handle(message); } void Handle(const OrthancStone::ParseDicomSuccessMessage& message) { dynamic_cast<const ICommand&>(message.GetOrigin().GetPayload()).Handle(message); } public: static boost::shared_ptr<ViewerViewport> Create(OrthancStone::ILoadersContext::ILock& lock, const OrthancStone::DicomSource& source, const std::string& canvas, boost::shared_ptr<FramesCache> cache, bool softwareRendering) { boost::shared_ptr<ViewerViewport> viewport( new ViewerViewport(lock.GetContext(), source, canvas, cache, softwareRendering)); viewport->loader_ = OrthancStone::DicomResourcesLoader::Create(lock); viewport->Register<OrthancStone::DicomResourcesLoader::SuccessMessage>( *viewport->loader_, &ViewerViewport::Handle); viewport->Register<OrthancStone::HttpCommand::SuccessMessage>( lock.GetOracleObservable(), &ViewerViewport::Handle); viewport->Register<OrthancStone::ParseDicomSuccessMessage>( lock.GetOracleObservable(), &ViewerViewport::Handle); return viewport; } void SetFrames(OrthancStone::SortedFrames* frames) { if (frames == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } flipX_ = false; flipY_ = false; fitNextContent_ = true; frames_.reset(frames); cursor_.reset(new SeriesCursor(frames_->GetFramesCount())); LOG(INFO) << "Number of frames in series: " << frames_->GetFramesCount(); ResetDefaultWindowing(); ClearViewport(); prefetchQueue_.clear(); currentFrameGeometry_ = FrameGeometry(); if (observer_.get() != NULL) { observer_->SignalFrameUpdated(*this, cursor_->GetCurrentIndex(), frames_->GetFramesCount(), DisplayedFrameQuality_None); } if (frames_->GetFramesCount() != 0) { const std::string& sopInstanceUid = frames_->GetFrameSopInstanceUid(cursor_->GetCurrentIndex()); { // Fetch the default windowing for the central instance const std::string uri = ("studies/" + frames_->GetStudyInstanceUid() + "/series/" + frames_->GetSeriesInstanceUid() + "/instances/" + sopInstanceUid + "/metadata"); loader_->ScheduleGetDicomWeb( boost::make_shared<OrthancStone::LoadedDicomResources>(Orthanc::DICOM_TAG_SOP_INSTANCE_UID), 0, source_, uri, new SetDefaultWindowingCommand(GetSharedObserver())); } } } // This method is used when the layout of the HTML page changes, // which does not trigger the "emscripten_set_resize_callback()" void UpdateSize(bool fitContent) { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); lock->RefreshCanvasSize(); if (fitContent) { lock->GetCompositor().FitContent(lock->GetController().GetScene()); } lock->Invalidate(); } void AcquireObserver(IObserver* observer) { observer_.reset(observer); } const std::string& GetCanvasId() const { assert(viewport_); return viewport_->GetCanvasId(); } void ChangeFrame(SeriesCursor::Action action) { if (cursor_.get() != NULL) { size_t previous = cursor_->GetCurrentIndex(); cursor_->Apply(action); size_t current = cursor_->GetCurrentIndex(); if (previous != current) { DisplayCurrentFrame(); } } } const FrameGeometry& GetCurrentFrameGeometry() const { return currentFrameGeometry_; } void UpdateReferenceLines(const std::list<const FrameGeometry*>& planes) { std::unique_ptr<OrthancStone::PolylineSceneLayer> layer(new OrthancStone::PolylineSceneLayer); if (GetCurrentFrameGeometry().IsValid()) { for (std::list<const FrameGeometry*>::const_iterator it = planes.begin(); it != planes.end(); ++it) { assert(*it != NULL); double x1, y1, x2, y2; if (GetCurrentFrameGeometry().Intersect(x1, y1, x2, y2, **it)) { OrthancStone::PolylineSceneLayer::Chain chain; chain.push_back(OrthancStone::ScenePoint2D(x1, y1)); chain.push_back(OrthancStone::ScenePoint2D(x2, y2)); layer->AddChain(chain, false, 0, 255, 0); } } } { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); if (layer->GetChainsCount() == 0) { lock->GetController().GetScene().DeleteLayer(LAYER_REFERENCE_LINES); } else { lock->GetController().GetScene().SetLayer(LAYER_REFERENCE_LINES, layer.release()); } //lock->GetCompositor().Refresh(lock->GetController().GetScene()); lock->Invalidate(); } } void ClearReferenceLines() { { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); lock->GetController().GetScene().DeleteLayer(LAYER_REFERENCE_LINES); lock->Invalidate(); } } void SetDefaultWindowing() { SetWindowing(defaultWindowingCenter_, defaultWindowingWidth_); } void SetWindowing(float windowingCenter, float windowingWidth) { windowingCenter_ = windowingCenter; windowingWidth_ = windowingWidth; UpdateCurrentTextureParameters(); } void FlipX() { flipX_ = !flipX_; SaveCurrentWindowing(); UpdateCurrentTextureParameters(); } void FlipY() { flipY_ = !flipY_; SaveCurrentWindowing(); UpdateCurrentTextureParameters(); } void Invert() { inverted_ = !inverted_; { std::unique_ptr<OrthancStone::IViewport::ILock> lock(viewport_->Lock()); if (lock->GetController().GetScene().HasLayer(LAYER_TEXTURE) && lock->GetController().GetScene().GetLayer(LAYER_TEXTURE).GetType() == OrthancStone::ISceneLayer::Type_FloatTexture) { OrthancStone::FloatTextureSceneLayer& layer = dynamic_cast<OrthancStone::FloatTextureSceneLayer&>( lock->GetController().GetScene().GetLayer(LAYER_TEXTURE)); // NB: Using "IsInverted()" instead of "inverted_" is for // compatibility with MONOCHROME1 images layer.SetInverted(!layer.IsInverted()); lock->Invalidate(); } } } class Interactor : public OrthancStone::DefaultViewportInteractor { private: WebViewerAction leftAction_; WebViewerAction middleAction_; WebViewerAction rightAction_; bool IsAction(const OrthancStone::PointerEvent& event, WebViewerAction action) { switch (event.GetMouseButton()) { case OrthancStone::MouseButton_Left: return (leftAction_ == action); case OrthancStone::MouseButton_Middle: return (middleAction_ == action); case OrthancStone::MouseButton_Right: return (rightAction_ == action); default: return false; } } public: Interactor(WebViewerAction leftAction, WebViewerAction middleAction, WebViewerAction rightAction) : leftAction_(leftAction), middleAction_(middleAction), rightAction_(rightAction) { SetLeftButtonAction(ConvertWebViewerAction(leftAction)); SetMiddleButtonAction(ConvertWebViewerAction(middleAction)); SetRightButtonAction(ConvertWebViewerAction(rightAction)); } virtual OrthancStone::IFlexiblePointerTracker* CreateTracker( boost::shared_ptr<OrthancStone::IViewport> viewport, const OrthancStone::PointerEvent& event, unsigned int viewportWidth, unsigned int viewportHeight) ORTHANC_OVERRIDE { if (IsAction(event, WebViewerAction_Crosshair)) { printf("CROSS-HAIR!\n"); return NULL; // No need for a tracker, this is just a click } else { return DefaultViewportInteractor::CreateTracker( viewport, event, viewportWidth, viewportHeight); } } }; void SetMouseButtonActions(WebViewerAction leftAction, WebViewerAction middleAction, WebViewerAction rightAction) { assert(viewport_ != NULL); viewport_->AcquireInteractor(new Interactor(leftAction, middleAction, rightAction)); } void FitForPrint() { viewport_->FitForPrint(); } }; typedef std::map<std::string, boost::shared_ptr<ViewerViewport> > Viewports; static Viewports allViewports_; static bool showReferenceLines_ = true; static void UpdateReferenceLines() { if (showReferenceLines_) { std::list<const FrameGeometry*> planes; for (Viewports::const_iterator it = allViewports_.begin(); it != allViewports_.end(); ++it) { assert(it->second != NULL); planes.push_back(&it->second->GetCurrentFrameGeometry()); } for (Viewports::iterator it = allViewports_.begin(); it != allViewports_.end(); ++it) { assert(it->second != NULL); it->second->UpdateReferenceLines(planes); } } else { for (Viewports::iterator it = allViewports_.begin(); it != allViewports_.end(); ++it) { assert(it->second != NULL); it->second->ClearReferenceLines(); } } } class WebAssemblyObserver : public ResourcesLoader::IObserver, public ViewerViewport::IObserver { public: virtual void SignalResourcesLoaded() ORTHANC_OVERRIDE { DISPATCH_JAVASCRIPT_EVENT("ResourcesLoaded"); } virtual void SignalSeriesThumbnailLoaded(const std::string& studyInstanceUid, const std::string& seriesInstanceUid) ORTHANC_OVERRIDE { EM_ASM({ const customEvent = document.createEvent("CustomEvent"); customEvent.initCustomEvent("ThumbnailLoaded", false, false, { "studyInstanceUid" : UTF8ToString($0), "seriesInstanceUid" : UTF8ToString($1) }); window.dispatchEvent(customEvent); }, studyInstanceUid.c_str(), seriesInstanceUid.c_str()); } virtual void SignalSeriesMetadataLoaded(const std::string& studyInstanceUid, const std::string& seriesInstanceUid) ORTHANC_OVERRIDE { EM_ASM({ const customEvent = document.createEvent("CustomEvent"); customEvent.initCustomEvent("MetadataLoaded", false, false, { "studyInstanceUid" : UTF8ToString($0), "seriesInstanceUid" : UTF8ToString($1) }); window.dispatchEvent(customEvent); }, studyInstanceUid.c_str(), seriesInstanceUid.c_str()); } virtual void SignalFrameUpdated(const ViewerViewport& viewport, size_t currentFrame, size_t countFrames, DisplayedFrameQuality quality) ORTHANC_OVERRIDE { EM_ASM({ const customEvent = document.createEvent("CustomEvent"); customEvent.initCustomEvent("FrameUpdated", false, false, { "canvasId" : UTF8ToString($0), "currentFrame" : $1, "framesCount" : $2, "quality" : $3 }); window.dispatchEvent(customEvent); }, viewport.GetCanvasId().c_str(), static_cast<int>(currentFrame), static_cast<int>(countFrames), quality); UpdateReferenceLines(); }; }; static OrthancStone::DicomSource source_; static boost::shared_ptr<FramesCache> cache_; static boost::shared_ptr<OrthancStone::WebAssemblyLoadersContext> context_; static std::string stringBuffer_; static bool softwareRendering_ = false; static WebViewerAction leftButtonAction_ = WebViewerAction_GrayscaleWindowing; static WebViewerAction middleButtonAction_ = WebViewerAction_Pan; static WebViewerAction rightButtonAction_ = WebViewerAction_Zoom; static void FormatTags(std::string& target, const Orthanc::DicomMap& tags) { Orthanc::DicomArray arr(tags); Json::Value v = Json::objectValue; for (size_t i = 0; i < arr.GetSize(); i++) { const Orthanc::DicomElement& element = arr.GetElement(i); if (!element.GetValue().IsBinary() && !element.GetValue().IsNull()) { v[element.GetTag().Format()] = element.GetValue().GetContent(); } } target = v.toStyledString(); } static ResourcesLoader& GetResourcesLoader() { static boost::shared_ptr<ResourcesLoader> resourcesLoader_; if (!resourcesLoader_) { std::unique_ptr<OrthancStone::ILoadersContext::ILock> lock(context_->Lock()); resourcesLoader_ = ResourcesLoader::Create(*lock, source_); resourcesLoader_->AcquireObserver(new WebAssemblyObserver); } return *resourcesLoader_; } static boost::shared_ptr<ViewerViewport> GetViewport(const std::string& canvas) { Viewports::iterator found = allViewports_.find(canvas); if (found == allViewports_.end()) { std::unique_ptr<OrthancStone::ILoadersContext::ILock> lock(context_->Lock()); boost::shared_ptr<ViewerViewport> viewport( ViewerViewport::Create(*lock, source_, canvas, cache_, softwareRendering_)); viewport->SetMouseButtonActions(leftButtonAction_, middleButtonAction_, rightButtonAction_); viewport->AcquireObserver(new WebAssemblyObserver); allViewports_[canvas] = viewport; return viewport; } else { return found->second; } } extern "C" { int main(int argc, char const *argv[]) { printf("OK\n"); Orthanc::InitializeFramework("", true); Orthanc::Logging::EnableInfoLevel(true); //Orthanc::Logging::EnableTraceLevel(true); context_.reset(new OrthancStone::WebAssemblyLoadersContext(1, 4, 1)); cache_.reset(new FramesCache); DISPATCH_JAVASCRIPT_EVENT("StoneInitialized"); } EMSCRIPTEN_KEEPALIVE void SetOrthancRoot(const char* uri, int useRendered) { try { context_->SetLocalOrthanc(uri); // For "source_.SetDicomWebThroughOrthancSource()" source_.SetDicomWebSource(std::string(uri) + "/dicom-web"); source_.SetDicomWebRendered(useRendered != 0); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void SetDicomWebServer(const char* serverName, int hasRendered) { try { source_.SetDicomWebThroughOrthancSource(serverName); source_.SetDicomWebRendered(hasRendered != 0); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void FetchAllStudies() { try { GetResourcesLoader().FetchAllStudies(); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void FetchStudy(const char* studyInstanceUid) { try { GetResourcesLoader().FetchStudy(studyInstanceUid); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void FetchSeries(const char* studyInstanceUid, const char* seriesInstanceUid) { try { GetResourcesLoader().FetchSeries(studyInstanceUid, seriesInstanceUid); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE int GetStudiesCount() { try { return GetResourcesLoader().GetStudiesCount(); } EXTERN_CATCH_EXCEPTIONS; return 0; // on exception } EMSCRIPTEN_KEEPALIVE int GetSeriesCount() { try { return GetResourcesLoader().GetSeriesCount(); } EXTERN_CATCH_EXCEPTIONS; return 0; // on exception } EMSCRIPTEN_KEEPALIVE const char* GetStringBuffer() { return stringBuffer_.c_str(); } EMSCRIPTEN_KEEPALIVE void LoadStudyTags(int i) { try { if (i < 0) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } Orthanc::DicomMap dicom; GetResourcesLoader().GetStudy(dicom, i); FormatTags(stringBuffer_, dicom); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void LoadSeriesTags(int i) { try { if (i < 0) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } Orthanc::DicomMap dicom; GetResourcesLoader().GetSeries(dicom, i); FormatTags(stringBuffer_, dicom); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE int LoadSeriesThumbnail(const char* seriesInstanceUid) { try { std::string image, mime; switch (GetResourcesLoader().GetSeriesThumbnail(image, mime, seriesInstanceUid)) { case OrthancStone::SeriesThumbnailType_Image: Orthanc::Toolbox::EncodeDataUriScheme(stringBuffer_, mime, image); return ThumbnailType_Image; case OrthancStone::SeriesThumbnailType_Pdf: return ThumbnailType_Pdf; case OrthancStone::SeriesThumbnailType_Video: return ThumbnailType_Video; case OrthancStone::SeriesThumbnailType_NotLoaded: return ThumbnailType_Loading; case OrthancStone::SeriesThumbnailType_Unsupported: return ThumbnailType_NoPreview; default: return ThumbnailType_Unknown; } } EXTERN_CATCH_EXCEPTIONS; return ThumbnailType_Unknown; } EMSCRIPTEN_KEEPALIVE void SpeedUpFetchSeriesMetadata(const char* studyInstanceUid, const char* seriesInstanceUid) { try { GetResourcesLoader().FetchSeriesMetadata(PRIORITY_HIGH, studyInstanceUid, seriesInstanceUid); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE int IsSeriesComplete(const char* seriesInstanceUid) { try { return GetResourcesLoader().IsSeriesComplete(seriesInstanceUid) ? 1 : 0; } EXTERN_CATCH_EXCEPTIONS; return 0; } EMSCRIPTEN_KEEPALIVE int LoadSeriesInViewport(const char* canvas, const char* seriesInstanceUid) { try { std::unique_ptr<OrthancStone::SortedFrames> frames(new OrthancStone::SortedFrames); if (GetResourcesLoader().SortSeriesFrames(*frames, seriesInstanceUid)) { GetViewport(canvas)->SetFrames(frames.release()); return 1; } else { return 0; } } EXTERN_CATCH_EXCEPTIONS; return 0; } EMSCRIPTEN_KEEPALIVE void AllViewportsUpdateSize(int fitContent) { try { for (Viewports::iterator it = allViewports_.begin(); it != allViewports_.end(); ++it) { assert(it->second != NULL); it->second->UpdateSize(fitContent != 0); } } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void DecrementFrame(const char* canvas, int fitContent) { try { GetViewport(canvas)->ChangeFrame(SeriesCursor::Action_Minus); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void IncrementFrame(const char* canvas, int fitContent) { try { GetViewport(canvas)->ChangeFrame(SeriesCursor::Action_Plus); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void ShowReferenceLines(int show) { try { showReferenceLines_ = (show != 0); UpdateReferenceLines(); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void SetDefaultWindowing(const char* canvas) { try { GetViewport(canvas)->SetDefaultWindowing(); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void SetWindowing(const char* canvas, int center, int width) { try { GetViewport(canvas)->SetWindowing(center, width); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void InvertContrast(const char* canvas) { try { GetViewport(canvas)->Invert(); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void FlipX(const char* canvas) { try { GetViewport(canvas)->FlipX(); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void FlipY(const char* canvas) { try { GetViewport(canvas)->FlipY(); } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void SetSoftwareRendering(int softwareRendering) { softwareRendering_ = softwareRendering; } EMSCRIPTEN_KEEPALIVE int IsSoftwareRendering() { return softwareRendering_; } EMSCRIPTEN_KEEPALIVE void SetMouseButtonActions(int leftAction, int middleAction, int rightAction) { try { leftButtonAction_ = static_cast<WebViewerAction>(leftAction); middleButtonAction_ = static_cast<WebViewerAction>(middleAction); rightButtonAction_ = static_cast<WebViewerAction>(rightAction); for (Viewports::iterator it = allViewports_.begin(); it != allViewports_.end(); ++it) { assert(it->second != NULL); it->second->SetMouseButtonActions(leftButtonAction_, middleButtonAction_, rightButtonAction_); } } EXTERN_CATCH_EXCEPTIONS; } EMSCRIPTEN_KEEPALIVE void FitForPrint() { try { for (Viewports::iterator it = allViewports_.begin(); it != allViewports_.end(); ++it) { assert(it->second != NULL); it->second->FitForPrint(); } } EXTERN_CATCH_EXCEPTIONS; } }