Mercurial > hg > orthanc-stone
view Framework/Deprecated/dev.h @ 845:cdba0dbb4682
removed some c++11 for older compilers
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 14 Jun 2019 14:46:16 +0200 |
parents | c0fcb2757b0a |
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 "Layers/FrameRenderer.h" #include "Layers/LineLayerRenderer.h" #include "Layers/SliceOutlineRenderer.h" #include "Toolbox/DownloadStack.h" #include "Toolbox/GeometryToolbox.h" #include "Toolbox/OrthancSlicesLoader.h" #include "Volumes/ISlicedVolume.h" #include "Volumes/ImageBuffer3D.h" #include "Widgets/SliceViewerWidget.h" #include <Core/Logging.h> #include <Core/Images/ImageProcessing.h> #include <Core/OrthancException.h> #include <boost/math/special_functions/round.hpp> namespace Deprecated { // TODO: Handle errors while loading class OrthancVolumeImage : public ISlicedVolume, public OrthancStone::IObserver { private: OrthancSlicesLoader loader_; std::auto_ptr<OrthancStone::ImageBuffer3D> image_; std::auto_ptr<DownloadStack> downloadStack_; bool computeRange_; size_t pendingSlices_; void ScheduleSliceDownload() { assert(downloadStack_.get() != NULL); unsigned int slice; if (downloadStack_->Pop(slice)) { loader_.ScheduleLoadSliceImage(slice, OrthancStone::SliceImageQuality_Jpeg90); } } static bool IsCompatible(const Slice& a, const Slice& b) { if (!OrthancStone::GeometryToolbox::IsParallel(a.GetGeometry().GetNormal(), b.GetGeometry().GetNormal())) { LOG(ERROR) << "A slice in the volume image is not parallel to the others."; return false; } if (a.GetConverter().GetExpectedPixelFormat() != b.GetConverter().GetExpectedPixelFormat()) { LOG(ERROR) << "The pixel format changes across the slices of the volume image."; return false; } if (a.GetWidth() != b.GetWidth() || a.GetHeight() != b.GetHeight()) { LOG(ERROR) << "The slices dimensions (width/height) are varying throughout the volume image"; return false; } if (!OrthancStone::LinearAlgebra::IsNear(a.GetPixelSpacingX(), b.GetPixelSpacingX()) || !OrthancStone::LinearAlgebra::IsNear(a.GetPixelSpacingY(), b.GetPixelSpacingY())) { LOG(ERROR) << "The pixel spacing of the slices change across the volume image"; return false; } return true; } static double GetDistance(const Slice& a, const Slice& b) { return fabs(a.GetGeometry().ProjectAlongNormal(a.GetGeometry().GetOrigin()) - a.GetGeometry().ProjectAlongNormal(b.GetGeometry().GetOrigin())); } void OnSliceGeometryReady(const OrthancSlicesLoader::SliceGeometryReadyMessage& message) { assert(&message.GetOrigin() == &loader_); if (loader_.GetSlicesCount() == 0) { LOG(ERROR) << "Empty volume image"; BroadcastMessage(ISlicedVolume::GeometryErrorMessage(*this)); return; } for (size_t i = 1; i < loader_.GetSlicesCount(); i++) { if (!IsCompatible(loader_.GetSlice(0), loader_.GetSlice(i))) { BroadcastMessage(ISlicedVolume::GeometryErrorMessage(*this)); return; } } double spacingZ; if (loader_.GetSlicesCount() > 1) { spacingZ = GetDistance(loader_.GetSlice(0), loader_.GetSlice(1)); } else { // This is a volume with one single slice: Choose a dummy // z-dimension for voxels spacingZ = 1; } for (size_t i = 1; i < loader_.GetSlicesCount(); i++) { if (!OrthancStone::LinearAlgebra::IsNear(spacingZ, GetDistance(loader_.GetSlice(i - 1), loader_.GetSlice(i)), 0.001 /* this is expressed in mm */)) { LOG(ERROR) << "The distance between successive slices is not constant in a volume image"; BroadcastMessage(ISlicedVolume::GeometryErrorMessage(*this)); return; } } unsigned int width = loader_.GetSlice(0).GetWidth(); unsigned int height = loader_.GetSlice(0).GetHeight(); Orthanc::PixelFormat format = loader_.GetSlice(0).GetConverter().GetExpectedPixelFormat(); LOG(INFO) << "Creating a volume image of size " << width << "x" << height << "x" << loader_.GetSlicesCount() << " in " << Orthanc::EnumerationToString(format); image_.reset(new OrthancStone::ImageBuffer3D(format, width, height, static_cast<unsigned int>(loader_.GetSlicesCount()), computeRange_)); image_->GetGeometry().SetAxialGeometry(loader_.GetSlice(0).GetGeometry()); image_->GetGeometry().SetVoxelDimensions(loader_.GetSlice(0).GetPixelSpacingX(), loader_.GetSlice(0).GetPixelSpacingY(), spacingZ); image_->Clear(); downloadStack_.reset(new DownloadStack(static_cast<unsigned int>(loader_.GetSlicesCount()))); pendingSlices_ = loader_.GetSlicesCount(); for (unsigned int i = 0; i < 4; i++) // Limit to 4 simultaneous downloads { ScheduleSliceDownload(); } // TODO Check the DicomFrameConverter are constant BroadcastMessage(ISlicedVolume::GeometryReadyMessage(*this)); } void OnSliceGeometryError(const OrthancSlicesLoader::SliceGeometryErrorMessage& message) { assert(&message.GetOrigin() == &loader_); LOG(ERROR) << "Unable to download a volume image"; BroadcastMessage(ISlicedVolume::GeometryErrorMessage(*this)); } void OnSliceImageReady(const OrthancSlicesLoader::SliceImageReadyMessage& message) { assert(&message.GetOrigin() == &loader_); { OrthancStone::ImageBuffer3D::SliceWriter writer(*image_, OrthancStone::VolumeProjection_Axial, message.GetSliceIndex()); Orthanc::ImageProcessing::Copy(writer.GetAccessor(), message.GetImage()); } BroadcastMessage(ISlicedVolume::SliceContentChangedMessage (*this, message.GetSliceIndex(), message.GetSlice())); if (pendingSlices_ == 1) { BroadcastMessage(ISlicedVolume::VolumeReadyMessage(*this)); pendingSlices_ = 0; } else if (pendingSlices_ > 1) { pendingSlices_ -= 1; } ScheduleSliceDownload(); } void OnSliceImageError(const OrthancSlicesLoader::SliceImageErrorMessage& message) { assert(&message.GetOrigin() == &loader_); LOG(ERROR) << "Cannot download slice " << message.GetSliceIndex() << " in a volume image"; ScheduleSliceDownload(); } public: OrthancVolumeImage(OrthancStone::MessageBroker& broker, OrthancApiClient& orthanc, bool computeRange) : ISlicedVolume(broker), IObserver(broker), loader_(broker, orthanc), computeRange_(computeRange), pendingSlices_(0) { loader_.RegisterObserverCallback( new OrthancStone::Callable<OrthancVolumeImage, OrthancSlicesLoader::SliceGeometryReadyMessage> (*this, &OrthancVolumeImage::OnSliceGeometryReady)); loader_.RegisterObserverCallback( new OrthancStone::Callable<OrthancVolumeImage, OrthancSlicesLoader::SliceGeometryErrorMessage> (*this, &OrthancVolumeImage::OnSliceGeometryError)); loader_.RegisterObserverCallback( new OrthancStone::Callable<OrthancVolumeImage, OrthancSlicesLoader::SliceImageReadyMessage> (*this, &OrthancVolumeImage::OnSliceImageReady)); loader_.RegisterObserverCallback( new OrthancStone::Callable<OrthancVolumeImage, OrthancSlicesLoader::SliceImageErrorMessage> (*this, &OrthancVolumeImage::OnSliceImageError)); } void ScheduleLoadSeries(const std::string& seriesId) { loader_.ScheduleLoadSeries(seriesId); } void ScheduleLoadInstance(const std::string& instanceId) { loader_.ScheduleLoadInstance(instanceId); } void ScheduleLoadFrame(const std::string& instanceId, unsigned int frame) { loader_.ScheduleLoadFrame(instanceId, frame); } virtual size_t GetSlicesCount() const { return loader_.GetSlicesCount(); } virtual const Slice& GetSlice(size_t index) const { return loader_.GetSlice(index); } OrthancStone::ImageBuffer3D& GetImage() const { if (image_.get() == NULL) { // The geometry is not ready yet throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } else { return *image_; } } bool FitWindowingToRange(RenderStyle& style, const DicomFrameConverter& converter) const { if (image_.get() == NULL) { return false; } else { return image_->FitWindowingToRange(style, converter); } } }; class VolumeImageGeometry { private: unsigned int width_; unsigned int height_; size_t depth_; double pixelSpacingX_; double pixelSpacingY_; double sliceThickness_; OrthancStone::CoordinateSystem3D reference_; DicomFrameConverter converter_; double ComputeAxialThickness(const OrthancVolumeImage& volume) const { double thickness; size_t n = volume.GetSlicesCount(); if (n > 1) { const Slice& a = volume.GetSlice(0); const Slice& b = volume.GetSlice(n - 1); thickness = ((reference_.ProjectAlongNormal(b.GetGeometry().GetOrigin()) - reference_.ProjectAlongNormal(a.GetGeometry().GetOrigin())) / (static_cast<double>(n) - 1.0)); } else { thickness = volume.GetSlice(0).GetThickness(); } if (thickness <= 0) { // The slices should have been sorted with increasing Z // (along the normal) by the OrthancSlicesLoader throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } else { return thickness; } } void SetupAxial(const OrthancVolumeImage& volume) { const Slice& axial = volume.GetSlice(0); width_ = axial.GetWidth(); height_ = axial.GetHeight(); depth_ = volume.GetSlicesCount(); pixelSpacingX_ = axial.GetPixelSpacingX(); pixelSpacingY_ = axial.GetPixelSpacingY(); sliceThickness_ = ComputeAxialThickness(volume); reference_ = axial.GetGeometry(); } void SetupCoronal(const OrthancVolumeImage& volume) { const Slice& axial = volume.GetSlice(0); double axialThickness = ComputeAxialThickness(volume); width_ = axial.GetWidth(); height_ = static_cast<unsigned int>(volume.GetSlicesCount()); depth_ = axial.GetHeight(); pixelSpacingX_ = axial.GetPixelSpacingX(); pixelSpacingY_ = axialThickness; sliceThickness_ = axial.GetPixelSpacingY(); OrthancStone::Vector origin = axial.GetGeometry().GetOrigin(); origin += (static_cast<double>(volume.GetSlicesCount() - 1) * axialThickness * axial.GetGeometry().GetNormal()); reference_ = OrthancStone::CoordinateSystem3D(origin, axial.GetGeometry().GetAxisX(), - axial.GetGeometry().GetNormal()); } void SetupSagittal(const OrthancVolumeImage& volume) { const Slice& axial = volume.GetSlice(0); double axialThickness = ComputeAxialThickness(volume); width_ = axial.GetHeight(); height_ = static_cast<unsigned int>(volume.GetSlicesCount()); depth_ = axial.GetWidth(); pixelSpacingX_ = axial.GetPixelSpacingY(); pixelSpacingY_ = axialThickness; sliceThickness_ = axial.GetPixelSpacingX(); OrthancStone::Vector origin = axial.GetGeometry().GetOrigin(); origin += (static_cast<double>(volume.GetSlicesCount() - 1) * axialThickness * axial.GetGeometry().GetNormal()); reference_ = OrthancStone::CoordinateSystem3D(origin, axial.GetGeometry().GetAxisY(), axial.GetGeometry().GetNormal()); } public: VolumeImageGeometry(const OrthancVolumeImage& volume, OrthancStone::VolumeProjection projection) { if (volume.GetSlicesCount() == 0) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } converter_ = volume.GetSlice(0).GetConverter(); switch (projection) { case OrthancStone::VolumeProjection_Axial: SetupAxial(volume); break; case OrthancStone::VolumeProjection_Coronal: SetupCoronal(volume); break; case OrthancStone::VolumeProjection_Sagittal: SetupSagittal(volume); break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } size_t GetSlicesCount() const { return depth_; } const OrthancStone::Vector& GetNormal() const { return reference_.GetNormal(); } bool LookupSlice(size_t& index, const OrthancStone::CoordinateSystem3D& slice) const { bool opposite; if (!OrthancStone::GeometryToolbox::IsParallelOrOpposite(opposite, reference_.GetNormal(), slice.GetNormal())) { return false; } double z = (reference_.ProjectAlongNormal(slice.GetOrigin()) - reference_.ProjectAlongNormal(reference_.GetOrigin())) / sliceThickness_; int s = static_cast<int>(boost::math::iround(z)); if (s < 0 || s >= static_cast<int>(depth_)) { return false; } else { index = static_cast<size_t>(s); return true; } } Slice* GetSlice(size_t slice) const { if (slice >= depth_) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } else { OrthancStone::CoordinateSystem3D origin(reference_.GetOrigin() + static_cast<double>(slice) * sliceThickness_ * reference_.GetNormal(), reference_.GetAxisX(), reference_.GetAxisY()); return new Slice(origin, pixelSpacingX_, pixelSpacingY_, sliceThickness_, width_, height_, converter_); } } }; class VolumeImageMPRSlicer : public IVolumeSlicer, public OrthancStone::IObserver { private: class RendererFactory : public LayerReadyMessage::IRendererFactory { private: const Orthanc::ImageAccessor& frame_; const Slice& slice_; bool isFullQuality_; public: RendererFactory(const Orthanc::ImageAccessor& frame, const Slice& slice, bool isFullQuality) : frame_(frame), slice_(slice), isFullQuality_(isFullQuality) { } virtual ILayerRenderer* CreateRenderer() const { return FrameRenderer::CreateRenderer(frame_, slice_, isFullQuality_); } }; OrthancVolumeImage& volume_; std::auto_ptr<VolumeImageGeometry> axialGeometry_; std::auto_ptr<VolumeImageGeometry> coronalGeometry_; std::auto_ptr<VolumeImageGeometry> sagittalGeometry_; bool IsGeometryReady() const { return axialGeometry_.get() != NULL; } void OnGeometryReady(const ISlicedVolume::GeometryReadyMessage& message) { assert(&message.GetOrigin() == &volume_); // These 3 values are only used to speed up the IVolumeSlicer axialGeometry_.reset(new VolumeImageGeometry(volume_, OrthancStone::VolumeProjection_Axial)); coronalGeometry_.reset(new VolumeImageGeometry(volume_, OrthancStone::VolumeProjection_Coronal)); sagittalGeometry_.reset(new VolumeImageGeometry(volume_, OrthancStone::VolumeProjection_Sagittal)); BroadcastMessage(IVolumeSlicer::GeometryReadyMessage(*this)); } void OnGeometryError(const ISlicedVolume::GeometryErrorMessage& message) { assert(&message.GetOrigin() == &volume_); BroadcastMessage(IVolumeSlicer::GeometryErrorMessage(*this)); } void OnContentChanged(const ISlicedVolume::ContentChangedMessage& message) { assert(&message.GetOrigin() == &volume_); BroadcastMessage(IVolumeSlicer::ContentChangedMessage(*this)); } void OnSliceContentChanged(const ISlicedVolume::SliceContentChangedMessage& message) { assert(&message.GetOrigin() == &volume_); //IVolumeSlicer::OnSliceContentChange(slice); // TODO Improve this? BroadcastMessage(IVolumeSlicer::ContentChangedMessage(*this)); } const VolumeImageGeometry& GetProjectionGeometry(OrthancStone::VolumeProjection projection) { if (!IsGeometryReady()) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } switch (projection) { case OrthancStone::VolumeProjection_Axial: return *axialGeometry_; case OrthancStone::VolumeProjection_Sagittal: return *sagittalGeometry_; case OrthancStone::VolumeProjection_Coronal: return *coronalGeometry_; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } } bool DetectProjection(OrthancStone::VolumeProjection& projection, const OrthancStone::CoordinateSystem3D& viewportSlice) { bool isOpposite; // Ignored if (OrthancStone::GeometryToolbox::IsParallelOrOpposite(isOpposite, viewportSlice.GetNormal(), axialGeometry_->GetNormal())) { projection = OrthancStone::VolumeProjection_Axial; return true; } else if (OrthancStone::GeometryToolbox::IsParallelOrOpposite(isOpposite, viewportSlice.GetNormal(), sagittalGeometry_->GetNormal())) { projection = OrthancStone::VolumeProjection_Sagittal; return true; } else if (OrthancStone::GeometryToolbox::IsParallelOrOpposite(isOpposite, viewportSlice.GetNormal(), coronalGeometry_->GetNormal())) { projection = OrthancStone::VolumeProjection_Coronal; return true; } else { return false; } } public: VolumeImageMPRSlicer(OrthancStone::MessageBroker& broker, OrthancVolumeImage& volume) : IVolumeSlicer(broker), IObserver(broker), volume_(volume) { volume_.RegisterObserverCallback( new OrthancStone::Callable<VolumeImageMPRSlicer, ISlicedVolume::GeometryReadyMessage> (*this, &VolumeImageMPRSlicer::OnGeometryReady)); volume_.RegisterObserverCallback( new OrthancStone::Callable<VolumeImageMPRSlicer, ISlicedVolume::GeometryErrorMessage> (*this, &VolumeImageMPRSlicer::OnGeometryError)); volume_.RegisterObserverCallback( new OrthancStone::Callable<VolumeImageMPRSlicer, ISlicedVolume::ContentChangedMessage> (*this, &VolumeImageMPRSlicer::OnContentChanged)); volume_.RegisterObserverCallback( new OrthancStone::Callable<VolumeImageMPRSlicer, ISlicedVolume::SliceContentChangedMessage> (*this, &VolumeImageMPRSlicer::OnSliceContentChanged)); } virtual bool GetExtent(std::vector<OrthancStone::Vector>& points, const OrthancStone::CoordinateSystem3D& viewportSlice) ORTHANC_OVERRIDE { OrthancStone::VolumeProjection projection; if (!IsGeometryReady() || !DetectProjection(projection, viewportSlice)) { return false; } else { // As the slices of the volumic image are arranged in a box, // we only consider one single reference slice (the one with index 0). std::auto_ptr<Slice> slice(GetProjectionGeometry(projection).GetSlice(0)); slice->GetExtent(points); return true; } } virtual void ScheduleLayerCreation(const OrthancStone::CoordinateSystem3D& viewportSlice) ORTHANC_OVERRIDE { OrthancStone::VolumeProjection projection; if (IsGeometryReady() && DetectProjection(projection, viewportSlice)) { const VolumeImageGeometry& geometry = GetProjectionGeometry(projection); size_t closest; if (geometry.LookupSlice(closest, viewportSlice)) { bool isFullQuality = true; // TODO std::auto_ptr<Orthanc::Image> frame; { OrthancStone::ImageBuffer3D::SliceReader reader(volume_.GetImage(), projection, static_cast<unsigned int>(closest)); // TODO Transfer ownership if non-axial, to avoid memcpy frame.reset(Orthanc::Image::Clone(reader.GetAccessor())); } std::auto_ptr<Slice> slice(geometry.GetSlice(closest)); RendererFactory factory(*frame, *slice, isFullQuality); BroadcastMessage(IVolumeSlicer::LayerReadyMessage(*this, factory, slice->GetGeometry())); return; } } // Error OrthancStone::CoordinateSystem3D slice; BroadcastMessage(IVolumeSlicer::LayerErrorMessage(*this, slice)); } }; class VolumeImageInteractor : public IWorldSceneInteractor, public OrthancStone::IObserver { private: SliceViewerWidget& widget_; OrthancStone::VolumeProjection projection_; std::auto_ptr<VolumeImageGeometry> slices_; size_t slice_; protected: void OnGeometryReady(const ISlicedVolume::GeometryReadyMessage& message) { if (slices_.get() == NULL) { const OrthancVolumeImage& image = dynamic_cast<const OrthancVolumeImage&>(message.GetOrigin()); slices_.reset(new VolumeImageGeometry(image, projection_)); SetSlice(slices_->GetSlicesCount() / 2); widget_.FitContent(); } } virtual IWorldSceneMouseTracker* CreateMouseTracker(WorldSceneWidget& widget, const ViewportGeometry& view, OrthancStone::MouseButton button, OrthancStone::KeyboardModifiers modifiers, int viewportX, int viewportY, double x, double y, IStatusBar* statusBar, const std::vector<Touch>& touches) ORTHANC_OVERRIDE { return NULL; } virtual void MouseOver(OrthancStone::CairoContext& context, WorldSceneWidget& widget, const ViewportGeometry& view, double x, double y, IStatusBar* statusBar) ORTHANC_OVERRIDE { } virtual void MouseWheel(WorldSceneWidget& widget, OrthancStone::MouseWheelDirection direction, OrthancStone::KeyboardModifiers modifiers, IStatusBar* statusBar) ORTHANC_OVERRIDE { int scale = (modifiers & OrthancStone::KeyboardModifiers_Control ? 10 : 1); switch (direction) { case OrthancStone::MouseWheelDirection_Up: OffsetSlice(-scale); break; case OrthancStone::MouseWheelDirection_Down: OffsetSlice(scale); break; default: break; } } virtual void KeyPressed(WorldSceneWidget& widget, OrthancStone::KeyboardKeys key, char keyChar, OrthancStone::KeyboardModifiers modifiers, IStatusBar* statusBar) ORTHANC_OVERRIDE { switch (keyChar) { case 's': widget.FitContent(); break; default: break; } } public: VolumeImageInteractor(OrthancStone::MessageBroker& broker, OrthancVolumeImage& volume, SliceViewerWidget& widget, OrthancStone::VolumeProjection projection) : IObserver(broker), widget_(widget), projection_(projection) { widget.SetInteractor(*this); volume.RegisterObserverCallback( new OrthancStone::Callable<VolumeImageInteractor, ISlicedVolume::GeometryReadyMessage> (*this, &VolumeImageInteractor::OnGeometryReady)); } bool IsGeometryReady() const { return slices_.get() != NULL; } size_t GetSlicesCount() const { if (slices_.get() == NULL) { return 0; } else { return slices_->GetSlicesCount(); } } void OffsetSlice(int offset) { if (slices_.get() != NULL) { int slice = static_cast<int>(slice_) + offset; if (slice < 0) { slice = 0; } if (slice >= static_cast<int>(slices_->GetSlicesCount())) { slice = static_cast<unsigned int>(slices_->GetSlicesCount()) - 1; } if (slice != static_cast<int>(slice_)) { SetSlice(slice); } } } void SetSlice(size_t slice) { if (slices_.get() != NULL) { slice_ = slice; std::auto_ptr<Slice> tmp(slices_->GetSlice(slice_)); widget_.SetSlice(tmp->GetGeometry()); } } }; class ReferenceLineSource : public IVolumeSlicer { private: class RendererFactory : public LayerReadyMessage::IRendererFactory { private: double x1_; double y1_; double x2_; double y2_; const OrthancStone::CoordinateSystem3D& slice_; public: RendererFactory(double x1, double y1, double x2, double y2, const OrthancStone::CoordinateSystem3D& slice) : x1_(x1), y1_(y1), x2_(x2), y2_(y2), slice_(slice) { } virtual ILayerRenderer* CreateRenderer() const { return new LineLayerRenderer(x1_, y1_, x2_, y2_, slice_); } }; SliceViewerWidget& otherPlane_; public: ReferenceLineSource(OrthancStone::MessageBroker& broker, SliceViewerWidget& otherPlane) : IVolumeSlicer(broker), otherPlane_(otherPlane) { BroadcastMessage(IVolumeSlicer::GeometryReadyMessage(*this)); } virtual bool GetExtent(std::vector<OrthancStone::Vector>& points, const OrthancStone::CoordinateSystem3D& viewportSlice) { return false; } virtual void ScheduleLayerCreation(const OrthancStone::CoordinateSystem3D& viewportSlice) { Slice reference(viewportSlice, 0.001); OrthancStone::Vector p, d; const OrthancStone::CoordinateSystem3D& slice = otherPlane_.GetSlice(); // Compute the line of intersection between the two slices if (!OrthancStone::GeometryToolbox::IntersectTwoPlanes(p, d, slice.GetOrigin(), slice.GetNormal(), viewportSlice.GetOrigin(), viewportSlice.GetNormal())) { // The two slice are parallel, don't try and display the intersection BroadcastMessage(IVolumeSlicer::LayerErrorMessage(*this, reference.GetGeometry())); } else { double x1, y1, x2, y2; viewportSlice.ProjectPoint(x1, y1, p); viewportSlice.ProjectPoint(x2, y2, p + 1000.0 * d); const OrthancStone::Extent2D extent = otherPlane_.GetSceneExtent(); if (OrthancStone::GeometryToolbox::ClipLineToRectangle(x1, y1, x2, y2, x1, y1, x2, y2, extent.GetX1(), extent.GetY1(), extent.GetX2(), extent.GetY2())) { RendererFactory factory(x1, y1, x2, y2, slice); BroadcastMessage(IVolumeSlicer::LayerReadyMessage(*this, factory, reference.GetGeometry())); } else { // Error: Parallel slices BroadcastMessage(IVolumeSlicer::LayerErrorMessage(*this, reference.GetGeometry())); } } } }; }