Mercurial > hg > orthanc-stone
view OrthancStone/Sources/Scene2D/AnnotationsSceneLayer.cpp @ 2031:a56f7ed0cdf9 deep-learning
integration mainline->deep-learning
author | Sebastien Jodogne <s.jodogne@gmail.com> |
---|---|
date | Fri, 23 Dec 2022 17:51:07 +0100 |
parents | abd4ee1648de |
children | 07964689cb0b |
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/** * Stone of Orthanc * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2022 Osimis S.A., Belgium * Copyright (C) 2021-2022 Sebastien Jodogne, ICTEAM UCLouvain, Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Lesser 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program. If not, see * <http://www.gnu.org/licenses/>. **/ #include "AnnotationsSceneLayer.h" #include "MacroSceneLayer.h" #include "PolylineSceneLayer.h" #include "TextSceneLayer.h" #include "TextureBaseSceneLayer.h" #include <Images/ImageTraits.h> #include <OrthancException.h> #include <boost/math/constants/constants.hpp> #include <list> static const double PI = boost::math::constants::pi<double>(); static const double HANDLE_SIZE = 10.0; static const double ARROW_LENGTH = 1.5 * HANDLE_SIZE; static const double ARROW_ANGLE = 20.0 * PI / 180.0; static const char* const KEY_ANNOTATIONS = "annotations"; static const char* const KEY_TYPE = "type"; static const char* const KEY_X = "x"; static const char* const KEY_Y = "y"; static const char* const KEY_X1 = "x1"; static const char* const KEY_Y1 = "y1"; static const char* const KEY_X2 = "x2"; static const char* const KEY_Y2 = "y2"; static const char* const KEY_X3 = "x3"; static const char* const KEY_Y3 = "y3"; static const char* const KEY_UNITS = "units"; static const char* const KEY_LABEL = "label"; static const char* const VALUE_ANGLE = "angle"; static const char* const VALUE_CIRCLE = "circle"; static const char* const VALUE_LENGTH = "length"; static const char* const VALUE_MILLIMETERS = "millimeters"; static const char* const VALUE_PIXELS = "pixels"; static const char* const VALUE_PIXEL_PROBE = "pixel-probe"; static const char* const VALUE_RECTANGLE_PROBE = "rectangle-probe"; static const char* const VALUE_ELLIPSE_PROBE = "ellipse-probe"; static const char* const VALUE_TEXT_ANNOTATION = "text"; #if 0 static OrthancStone::Color COLOR_PRIMITIVES(192, 192, 192); static OrthancStone::Color COLOR_HOVER(0, 255, 0); static OrthancStone::Color COLOR_TEXT(255, 0, 0); #else static OrthancStone::Color COLOR_PRIMITIVES(0x40, 0x82, 0xad); static OrthancStone::Color COLOR_HOVER(0x40, 0xad, 0x79); static OrthancStone::Color COLOR_TEXT(0x4e, 0xde, 0x99); #endif namespace OrthancStone { class AnnotationsSceneLayer::GeometricPrimitive : public boost::noncopyable { private: bool modified_; Annotation& parentAnnotation_; Color color_; Color hoverColor_; bool isHover_; int depth_; public: GeometricPrimitive(Annotation& parentAnnotation, int depth) : modified_(true), parentAnnotation_(parentAnnotation), color_(COLOR_PRIMITIVES), hoverColor_(COLOR_HOVER), isHover_(false), depth_(depth) { } virtual ~GeometricPrimitive() { } Annotation& GetParentAnnotation() const { return parentAnnotation_; } int GetDepth() const { return depth_; } void SetHover(bool hover) { if (hover != isHover_) { isHover_ = hover; modified_ = true; } } bool IsHover() const { return isHover_; } void SetModified(bool modified) { modified_ = modified; } bool IsModified() const { return modified_; } void SetColor(const Color& color) { SetModified(true); color_ = color; } void SetHoverColor(const Color& color) { SetModified(true); hoverColor_ = color; } const Color& GetColor() const { return color_; } const Color& GetHoverColor() const { return hoverColor_; } Color GetActiveColor() const { return (IsHover() ? GetHoverColor() : GetColor()); } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const = 0; // Always called, even if not modified virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) = 0; // Only called if modified virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) = 0; virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) = 0; virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) = 0; }; class AnnotationsSceneLayer::Annotation : public boost::noncopyable { private: typedef std::list<GeometricPrimitive*> GeometricPrimitives; AnnotationsSceneLayer& that_; GeometricPrimitives primitives_; public: explicit Annotation(AnnotationsSceneLayer& that) : that_(that) { that.AddAnnotation(this); } virtual ~Annotation() { for (GeometricPrimitives::iterator it = primitives_.begin(); it != primitives_.end(); ++it) { that_.DeletePrimitive(*it); } } AnnotationsSceneLayer& GetParentLayer() const { return that_; } GeometricPrimitive* AddPrimitive(GeometricPrimitive* primitive) { if (primitive == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } else { assert(that_.primitives_.find(primitive) == that_.primitives_.end()); primitives_.push_back(primitive); // For automated deallocation that_.primitives_.insert(primitive); return primitive; } } template <typename T> T& AddTypedPrimitive(T* primitive) { AddPrimitive(primitive); return *primitive; } virtual unsigned int GetHandlesCount() const = 0; virtual Handle& GetHandle(unsigned int index) const = 0; virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) = 0; virtual void UpdateProbe(const Scene2D& scene) = 0; virtual void Serialize(Json::Value& target) = 0; }; class AnnotationsSceneLayer::Handle : public GeometricPrimitive { public: enum Shape { Shape_Square, Shape_CrossedSquare, Shape_Circle, Shape_CrossedCircle, Shape_Invisible /* to use in conjunction with arrows */ }; private: Shape shape_; ScenePoint2D center_; ScenePoint2D delta_; void AddCross(PolylineSceneLayer& polyline, double x1, double y1, double x2, double y2) { const double halfX = (x1 + x2) / 2.0; const double halfY = (y1 + y2) / 2.0; polyline.AddSegment(x1, halfY, x2, halfY, GetActiveColor()); polyline.AddSegment(halfX, y1, halfX, y2, GetActiveColor()); } public: explicit Handle(Annotation& parentAnnotation, Shape shape, const ScenePoint2D& center) : GeometricPrimitive(parentAnnotation, 0), // Highest priority shape_(shape), center_(center), delta_(0, 0) { } void SetSize(unsigned int size) { SetModified(true); } void SetCenter(const ScenePoint2D& center) { SetModified(true); center_ = center; delta_ = ScenePoint2D(0, 0); } void SetCenter(double x, double y) { SetCenter(ScenePoint2D(x, y)); } ScenePoint2D GetCenter() const { return center_ + delta_; } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const ORTHANC_OVERRIDE { const double zoom = scene.GetSceneToCanvasTransform().ComputeZoom(); double dx = (center_.GetX() + delta_.GetX() - p.GetX()) * zoom; double dy = (center_.GetY() + delta_.GetY() - p.GetY()) * zoom; return (std::abs(dx) <= HANDLE_SIZE / 2.0 && std::abs(dy) <= HANDLE_SIZE / 2.0); } virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) ORTHANC_OVERRIDE { static unsigned int NUM_SEGMENTS = 16; const double zoom = scene.GetSceneToCanvasTransform().ComputeZoom(); // TODO: take DPI into account const double unzoomedHandleSize = (HANDLE_SIZE / 2.0) / zoom; const double x = center_.GetX() + delta_.GetX(); const double y = center_.GetY() + delta_.GetY(); const double x1 = x - unzoomedHandleSize; const double y1 = y - unzoomedHandleSize; const double x2 = x + unzoomedHandleSize; const double y2 = y + unzoomedHandleSize; switch (shape_) { case Shape_Square: polyline.AddRectangle(x1, y1, x2, y2, GetActiveColor()); break; case Shape_CrossedSquare: polyline.AddRectangle(x1, y1, x2, y2, GetActiveColor()); AddCross(polyline, x1, y1, x2, y2); break; case Shape_Circle: polyline.AddCircle(x, y, unzoomedHandleSize, GetActiveColor(), NUM_SEGMENTS); break; case Shape_CrossedCircle: polyline.AddCircle(x, y, unzoomedHandleSize, GetActiveColor(), NUM_SEGMENTS); AddCross(polyline, x1, y1, x2, y2); break; case Shape_Invisible: break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } } virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); delta_ = delta; GetParentAnnotation().SignalMove(*this, scene); } virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); center_ = center_ + delta; delta_ = ScenePoint2D(0, 0); GetParentAnnotation().SignalMove(*this, scene); } }; class AnnotationsSceneLayer::Segment : public GeometricPrimitive { private: ScenePoint2D p1_; ScenePoint2D p2_; ScenePoint2D delta_; bool hasStartArrow_; bool hasEndArrow_; public: Segment(Annotation& parentAnnotation, const ScenePoint2D& p1, const ScenePoint2D& p2) : GeometricPrimitive(parentAnnotation, 1), // Can only be selected if no handle matches p1_(p1), p2_(p2), delta_(0, 0), hasStartArrow_(false), hasEndArrow_(false) { } Segment(Annotation& parentAnnotation, double x1, double y1, double x2, double y2) : GeometricPrimitive(parentAnnotation, 1), // Can only be selected if no handle matches p1_(x1, y1), p2_(x2, y2), delta_(0, 0), hasStartArrow_(false), hasEndArrow_(false) { } void SetPosition(const ScenePoint2D& p1, const ScenePoint2D& p2) { SetModified(true); p1_ = p1; p2_ = p2; delta_ = ScenePoint2D(0, 0); } void SetPosition(double x1, double y1, double x2, double y2) { SetModified(true); p1_ = ScenePoint2D(x1, y1); p2_ = ScenePoint2D(x2, y2); delta_ = ScenePoint2D(0, 0); } ScenePoint2D GetPosition1() const { return p1_ + delta_; } ScenePoint2D GetPosition2() const { return p2_ + delta_; } void SetStartArrow(bool enabled) { SetModified(true); hasStartArrow_ = enabled; } bool HasStartArrow() const { return hasStartArrow_; } void SetEndArrow(bool enabled) { SetModified(true); hasEndArrow_ = enabled; } bool HasEndArrow() const { return hasEndArrow_; } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const ORTHANC_OVERRIDE { const double zoom = scene.GetSceneToCanvasTransform().ComputeZoom(); return (ScenePoint2D::SquaredDistancePtSegment(p1_ + delta_, p2_ + delta_, p) * zoom * zoom <= (HANDLE_SIZE / 2.0) * (HANDLE_SIZE / 2.0)); } virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) ORTHANC_OVERRIDE { const Color color = GetActiveColor(); const ScenePoint2D a(p1_ + delta_); const ScenePoint2D b(p2_ + delta_); polyline.AddSegment(a, b, color); if (hasStartArrow_ || hasEndArrow_) { const double length = ARROW_LENGTH / scene.GetSceneToCanvasTransform().ComputeZoom(); const double angle = atan2(b.GetY() - a.GetY(), b.GetX() - a.GetX()); if (hasStartArrow_) { polyline.AddSegment(a, a + ScenePoint2D( length * cos(angle + ARROW_ANGLE), length * sin(angle + ARROW_ANGLE)), color); polyline.AddSegment(a, a + ScenePoint2D( length * cos(angle - ARROW_ANGLE), length * sin(angle - ARROW_ANGLE)), color); } if (hasEndArrow_) { polyline.AddSegment(b, b + ScenePoint2D( length * cos(angle + ARROW_ANGLE + PI), length * sin(angle + ARROW_ANGLE + PI)), color); polyline.AddSegment(b, b + ScenePoint2D( length * cos(angle - ARROW_ANGLE + PI), length * sin(angle - ARROW_ANGLE + PI)), color); } } } virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); delta_ = delta; GetParentAnnotation().SignalMove(*this, scene); } virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); p1_ = p1_ + delta; p2_ = p2_ + delta; delta_ = ScenePoint2D(0, 0); GetParentAnnotation().SignalMove(*this, scene); } }; class AnnotationsSceneLayer::Circle : public GeometricPrimitive { private: ScenePoint2D p1_; ScenePoint2D p2_; ScenePoint2D delta_; public: Circle(Annotation& parentAnnotation, const ScenePoint2D& p1, const ScenePoint2D& p2) : GeometricPrimitive(parentAnnotation, 2), p1_(p1), p2_(p2), delta_(0, 0) { } void SetPosition(const ScenePoint2D& p1, const ScenePoint2D& p2) { SetModified(true); p1_ = p1; p2_ = p2; delta_ = ScenePoint2D(0, 0); } ScenePoint2D GetPosition1() const { return p1_ + delta_; } ScenePoint2D GetPosition2() const { return p2_ + delta_; } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const ORTHANC_OVERRIDE { const double zoom = scene.GetSceneToCanvasTransform().ComputeZoom(); ScenePoint2D middle((p1_.GetX() + p2_.GetX()) / 2.0, (p1_.GetY() + p2_.GetY()) / 2.0); const double radius = ScenePoint2D::DistancePtPt(middle, p1_); const double distance = ScenePoint2D::DistancePtPt(middle, p - delta_); return std::abs(radius - distance) * zoom <= HANDLE_SIZE / 2.0; } virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) ORTHANC_OVERRIDE { static unsigned int NUM_SEGMENTS = 128; ScenePoint2D center((p1_.GetX() + p2_.GetX()) / 2.0, (p1_.GetY() + p2_.GetY()) / 2.0); const double radius = ScenePoint2D::DistancePtPt(center, p1_); polyline.AddCircle(center.GetX() + delta_.GetX(), center.GetY() + delta_.GetY(), radius, GetActiveColor(), NUM_SEGMENTS); } virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); delta_ = delta; GetParentAnnotation().SignalMove(*this, scene); } virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); p1_ = p1_ + delta; p2_ = p2_ + delta; delta_ = ScenePoint2D(0, 0); GetParentAnnotation().SignalMove(*this, scene); } }; class AnnotationsSceneLayer::Arc : public GeometricPrimitive { private: ScenePoint2D start_; ScenePoint2D middle_; ScenePoint2D end_; double radius_; // in pixels void ComputeAngles(double& fullAngle, double& startAngle, double& endAngle) const { const double x1 = start_.GetX(); const double y1 = start_.GetY(); const double xc = middle_.GetX(); const double yc = middle_.GetY(); const double x2 = end_.GetX(); const double y2 = end_.GetY(); double referenceAngle = atan2(y1 - yc, x1 - xc); double secondAngle = atan2(y2 - yc, x2 - xc); secondAngle -= referenceAngle; while (secondAngle >= PI) { secondAngle -= 2.0 * PI; } while (secondAngle <= -PI) { secondAngle += 2.0 * PI; } if (secondAngle < 0) { startAngle = referenceAngle + secondAngle; endAngle = referenceAngle; } else { startAngle = referenceAngle; endAngle = referenceAngle + secondAngle; } fullAngle = endAngle - startAngle; } public: Arc(Annotation& parentAnnotation, const ScenePoint2D& start, const ScenePoint2D& middle, const ScenePoint2D& end) : GeometricPrimitive(parentAnnotation, 2), start_(start), middle_(middle), end_(end), radius_(20) { } double GetAngle() const { double fullAngle, startAngle, endAngle; ComputeAngles(fullAngle, startAngle, endAngle); return fullAngle; } void SetStart(const ScenePoint2D& p) { SetModified(true); start_ = p; } void SetMiddle(const ScenePoint2D& p) { SetModified(true); middle_ = p; } void SetEnd(const ScenePoint2D& p) { SetModified(true); end_ = p; } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const ORTHANC_OVERRIDE { return false; } virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) ORTHANC_OVERRIDE { static unsigned int NUM_SEGMENTS = 64; const double radius = radius_ / scene.GetSceneToCanvasTransform().ComputeZoom(); double fullAngle, startAngle, endAngle; ComputeAngles(fullAngle, startAngle, endAngle); polyline.AddArc(middle_, radius, radius, startAngle, endAngle, GetActiveColor(), NUM_SEGMENTS); } virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); // No hit is possible } virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); // No hit is possible } }; class AnnotationsSceneLayer::Text : public GeometricPrimitive { private: AnnotationsSceneLayer& that_; bool first_; size_t subLayer_; std::unique_ptr<TextSceneLayer> content_; public: Text(AnnotationsSceneLayer& that, Annotation& parentAnnotation) : GeometricPrimitive(parentAnnotation, 2), that_(that), first_(true), subLayer_(0) // dummy initialization { } virtual ~Text() { if (!first_) { that_.TagSubLayerToRemove(subLayer_); } } void SetContent(const TextSceneLayer& content) { SetModified(true); content_.reset(dynamic_cast<TextSceneLayer*>(content.Clone())); } void SetText(const std::string& text) { if (content_.get() == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } else { SetModified(true); content_->SetText(text); } } std::string GetText() const { return content_->GetText(); } void SetPosition(double x, double y) { if (content_.get() == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } else { SetModified(true); content_->SetPosition(x, y); } } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const ORTHANC_OVERRIDE { return false; } virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) ORTHANC_OVERRIDE { if (content_.get() != NULL) { std::unique_ptr<TextSceneLayer> layer(reinterpret_cast<TextSceneLayer*>(content_->Clone())); layer->SetColor(GetActiveColor()); if (first_) { subLayer_ = macro.AddLayer(layer.release()); first_ = false; } else { macro.UpdateLayer(subLayer_, layer.release()); } } } virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); // No hit is possible } virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); // No hit is possible } }; class AnnotationsSceneLayer::Ellipse : public GeometricPrimitive { private: ScenePoint2D p1_; ScenePoint2D p2_; ScenePoint2D delta_; double GetCenterX() const { return (p1_.GetX() + p2_.GetX()) / 2.0 + delta_.GetX(); } double GetCenterY() const { return (p1_.GetY() + p2_.GetY()) / 2.0 + delta_.GetY(); } double GetRadiusX() const { return std::abs(p1_.GetX() - p2_.GetX()) / 2.0; } double GetRadiusY() const { return std::abs(p1_.GetY() - p2_.GetY()) / 2.0; } public: Ellipse(Annotation& parentAnnotation, const ScenePoint2D& p1, const ScenePoint2D& p2) : GeometricPrimitive(parentAnnotation, 2), p1_(p1), p2_(p2), delta_(0, 0) { } void SetPosition(const ScenePoint2D& p1, const ScenePoint2D& p2) { SetModified(true); p1_ = p1; p2_ = p2; delta_ = ScenePoint2D(0, 0); } ScenePoint2D GetPosition1() const { return p1_ + delta_; } ScenePoint2D GetPosition2() const { return p2_ + delta_; } double GetArea() const { return PI * GetRadiusX() * GetRadiusY(); } bool IsPointInside(const ScenePoint2D& p) const { const double radiusX = GetRadiusX(); const double radiusY = GetRadiusY(); double a, b, x, y; if (radiusX > radiusY) { // The ellipse is horizontal => we are in the case described // on Wikipedia: // https://en.wikipedia.org/wiki/Ellipse#Standard_equation a = radiusX; b = radiusY; x = p.GetX() - GetCenterX(); y = p.GetY() - GetCenterY(); } else { a = radiusY; b = radiusX; x = p.GetY() - GetCenterY(); y = p.GetX() - GetCenterX(); } const double c = sqrt(a * a - b * b); return (sqrt((x - c) * (x - c) + y * y) + sqrt((x + c) * (x + c) + y * y)) <= 2.0 * a; } virtual bool IsHit(const ScenePoint2D& p, const Scene2D& scene) const ORTHANC_OVERRIDE { const double zoom = scene.GetSceneToCanvasTransform().ComputeZoom(); const double radiusX = GetRadiusX(); const double radiusY = GetRadiusY(); // Warning: This is only an approximation of the // point-to-ellipse distance, as explained here: // https://blog.chatfield.io/simple-method-for-distance-to-ellipse/ const double x = (p.GetX() - GetCenterX()) / radiusX; const double y = (p.GetY() - GetCenterY()) / radiusY; const double t = atan2(y, x); const double xx = cos(t) - x; const double yy = sin(t) - y; const double approximateDistance = sqrt(xx * xx + yy * yy) * (radiusX + radiusY) / 2.0; return std::abs(approximateDistance) * zoom <= HANDLE_SIZE / 2.0; } virtual void RenderPolylineLayer(PolylineSceneLayer& polyline, const Scene2D& scene) ORTHANC_OVERRIDE { static unsigned int NUM_SEGMENTS = 128; polyline.AddArc(GetCenterX(), GetCenterY(), GetRadiusX(), GetRadiusY(), 0, 2.0 * PI, GetActiveColor(), NUM_SEGMENTS); } virtual void RenderOtherLayers(MacroSceneLayer& macro, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void MovePreview(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); delta_ = delta; GetParentAnnotation().SignalMove(*this, scene); } virtual void MoveDone(const ScenePoint2D& delta, const Scene2D& scene) ORTHANC_OVERRIDE { SetModified(true); p1_ = p1_ + delta; p2_ = p2_ + delta; delta_ = ScenePoint2D(0, 0); GetParentAnnotation().SignalMove(*this, scene); } }; class AnnotationsSceneLayer::EditPrimitiveTracker : public IFlexiblePointerTracker { private: AnnotationsSceneLayer& that_; GeometricPrimitive& primitive_; ScenePoint2D sceneClick_; AffineTransform2D canvasToScene_; bool alive_; public: EditPrimitiveTracker(AnnotationsSceneLayer& that, GeometricPrimitive& primitive, const ScenePoint2D& sceneClick, const AffineTransform2D& canvasToScene) : that_(that), primitive_(primitive), sceneClick_(sceneClick), canvasToScene_(canvasToScene), alive_(true) { } virtual void PointerMove(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { primitive_.MovePreview(event.GetMainPosition().Apply(canvasToScene_) - sceneClick_, scene); that_.BroadcastMessage(AnnotationChangedMessage(that_)); } virtual void PointerUp(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { primitive_.MoveDone(event.GetMainPosition().Apply(canvasToScene_) - sceneClick_, scene); alive_ = false; that_.BroadcastMessage(AnnotationChangedMessage(that_)); } virtual void PointerDown(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual bool IsAlive() const ORTHANC_OVERRIDE { return alive_; } virtual void Cancel(const Scene2D& scene) ORTHANC_OVERRIDE { //primitive_.MoveDone(ScenePoint2D(0, 0), scene); primitive_.MoveDone(sceneClick_, scene); // TODO Check this } }; class AnnotationsSceneLayer::SegmentAnnotation : public Annotation { private: Handle& handle1_; Handle& handle2_; Segment& segment_; Text& label_; protected: void SetLabelContent(const TextSceneLayer& content) { label_.SetContent(content); } std::string GetCurrentLabel() const { return label_.GetText(); } const Handle& GetHandle1() const { return handle1_; } const Handle& GetHandle2() const { return handle2_; } void SetStartArrow(bool enabled) { segment_.SetStartArrow(enabled); } void SetEndArrow(bool enabled) { segment_.SetEndArrow(enabled); } public: SegmentAnnotation(AnnotationsSceneLayer& that, Handle::Shape shape1, const ScenePoint2D& p1, Handle::Shape shape2, const ScenePoint2D& p2) : Annotation(that), handle1_(AddTypedPrimitive<Handle>(new Handle(*this, shape1, p1))), handle2_(AddTypedPrimitive<Handle>(new Handle(*this, shape2, p2))), segment_(AddTypedPrimitive<Segment>(new Segment(*this, p1, p2))), label_(AddTypedPrimitive<Text>(new Text(that, *this))) { label_.SetColor(COLOR_TEXT); } virtual unsigned int GetHandlesCount() const ORTHANC_OVERRIDE { return 2; } virtual Handle& GetHandle(unsigned int index) const ORTHANC_OVERRIDE { switch (index) { case 0: return handle1_; case 1: return handle2_; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { if (&primitive == &handle1_ || &primitive == &handle2_) { segment_.SetPosition(handle1_.GetCenter(), handle2_.GetCenter()); } else if (&primitive == &segment_) { handle1_.SetCenter(segment_.GetPosition1()); handle2_.SetCenter(segment_.GetPosition2()); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } } virtual void UpdateProbe(const Scene2D& scene) ORTHANC_OVERRIDE { } }; class AnnotationsSceneLayer::LengthAnnotation : public SegmentAnnotation { private: Units units_; bool showLabel_; void UpdateLabel() { if (showLabel_) { TextSceneLayer content; double x1 = GetHandle1().GetCenter().GetX(); double y1 = GetHandle1().GetCenter().GetY(); double x2 = GetHandle2().GetCenter().GetX(); double y2 = GetHandle2().GetCenter().GetY(); // Put the label to the right of the right-most handle if (x1 < x2) { content.SetPosition(x2, y2); } else { content.SetPosition(x1, y1); } content.SetAnchor(BitmapAnchor_CenterLeft); content.SetBorder(10); double dx = x1 - x2; double dy = y1 - y2; char buf[32]; switch (units_) { case Units_Millimeters: sprintf(buf, "%0.2f cm", sqrt(dx * dx + dy * dy) / 10.0); break; case Units_Pixels: sprintf(buf, "%0.1f px", sqrt(dx * dx + dy * dy)); break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } content.SetText(buf); SetLabelContent(content); } } public: LengthAnnotation(AnnotationsSceneLayer& that, Units units, bool showLabel, const ScenePoint2D& p1, const ScenePoint2D& p2) : SegmentAnnotation(that, Handle::Shape_Square, p1, Handle::Shape_Square, p2), units_(units), showLabel_(showLabel) { UpdateLabel(); } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { SegmentAnnotation::SignalMove(primitive, scene); UpdateLabel(); } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_LENGTH; target[KEY_X1] = GetHandle1().GetCenter().GetX(); target[KEY_Y1] = GetHandle1().GetCenter().GetY(); target[KEY_X2] = GetHandle2().GetCenter().GetX(); target[KEY_Y2] = GetHandle2().GetCenter().GetY(); } static void Unserialize(AnnotationsSceneLayer& target, Units units, const Json::Value& source) { if (source.isMember(KEY_X1) && source.isMember(KEY_Y1) && source.isMember(KEY_X2) && source.isMember(KEY_Y2) && source[KEY_X1].isNumeric() && source[KEY_Y1].isNumeric() && source[KEY_X2].isNumeric() && source[KEY_Y2].isNumeric()) { new LengthAnnotation(target, units, true, ScenePoint2D(source[KEY_X1].asDouble(), source[KEY_Y1].asDouble()), ScenePoint2D(source[KEY_X2].asDouble(), source[KEY_Y2].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize a length annotation"); } } }; class AnnotationsSceneLayer::TextAnnotation : public SegmentAnnotation { public: TextAnnotation(AnnotationsSceneLayer& that, const std::string& label, const ScenePoint2D& pointedPosition, const ScenePoint2D& labelPosition) : SegmentAnnotation(that, Handle::Shape_Invisible, pointedPosition /* p1 */, Handle::Shape_Square, labelPosition /* p2 */) { SetStartArrow(true); UpdateLabel(label); } ScenePoint2D GetPointedPosition() const { return GetHandle1().GetCenter(); } ScenePoint2D GetLabelPosition() const { return GetHandle2().GetCenter(); } void UpdateLabel(const std::string& label) { TextSceneLayer content; double x1 = GetHandle1().GetCenter().GetX(); double x2 = GetHandle2().GetCenter().GetX(); double y2 = GetHandle2().GetCenter().GetY(); if (x1 < x2) { content.SetAnchor(BitmapAnchor_CenterLeft); } else { content.SetAnchor(BitmapAnchor_CenterRight); } content.SetPosition(x2, y2); content.SetBorder(10); content.SetText(label); SetLabelContent(content); } void UpdateLabel() { UpdateLabel(GetCurrentLabel()); } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { SegmentAnnotation::SignalMove(primitive, scene); UpdateLabel(); } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_TEXT_ANNOTATION; target[KEY_X1] = GetHandle1().GetCenter().GetX(); target[KEY_Y1] = GetHandle1().GetCenter().GetY(); target[KEY_X2] = GetHandle2().GetCenter().GetX(); target[KEY_Y2] = GetHandle2().GetCenter().GetY(); target[KEY_LABEL] = GetCurrentLabel(); } static void Unserialize(AnnotationsSceneLayer& target, const Json::Value& source) { if (source.isMember(KEY_X1) && source.isMember(KEY_Y1) && source.isMember(KEY_X2) && source.isMember(KEY_Y2) && source.isMember(KEY_LABEL) && source[KEY_X1].isNumeric() && source[KEY_Y1].isNumeric() && source[KEY_X2].isNumeric() && source[KEY_Y2].isNumeric() && source[KEY_LABEL].isString()) { new TextAnnotation(target, source[KEY_LABEL].asString(), ScenePoint2D(source[KEY_X1].asDouble(), source[KEY_Y1].asDouble()), ScenePoint2D(source[KEY_X2].asDouble(), source[KEY_Y2].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize a text annotation"); } } }; // Use this class to avoid unnecessary probing if neither the scene, // nor the probe, has changed class AnnotationsSceneLayer::ProbingAnnotation : public Annotation { private: int probedLayer_; bool probeChanged_; uint64_t lastLayerRevision_; protected: virtual void UpdateProbeForLayer(const ISceneLayer& layer) = 0; void TagProbeAsChanged() { probeChanged_ = true; } public: explicit ProbingAnnotation(AnnotationsSceneLayer& that) : Annotation(that), probedLayer_(that.GetProbedLayer()), probeChanged_(true), lastLayerRevision_(0) { } virtual void UpdateProbe(const Scene2D& scene) ORTHANC_OVERRIDE { if (scene.HasLayer(probedLayer_)) { const ISceneLayer& layer = scene.GetLayer(probedLayer_); if (probeChanged_ || layer.GetRevision() != lastLayerRevision_) { UpdateProbeForLayer(layer); probeChanged_ = false; lastLayerRevision_ = layer.GetRevision(); } } } }; class AnnotationsSceneLayer::PixelProbeAnnotation : public ProbingAnnotation { private: Handle& handle_; Text& label_; protected: virtual void UpdateProbeForLayer(const ISceneLayer& layer) ORTHANC_OVERRIDE { if (layer.GetType() == ISceneLayer::Type_FloatTexture || layer.GetType() == ISceneLayer::Type_ColorTexture) { const TextureBaseSceneLayer& texture = dynamic_cast<const TextureBaseSceneLayer&>(layer); const AffineTransform2D sceneToTexture = AffineTransform2D::Invert(texture.GetTransform()); double sceneX = handle_.GetCenter().GetX(); double sceneY = handle_.GetCenter().GetY(); sceneToTexture.Apply(sceneX, sceneY); int x = static_cast<int>(std::floor(sceneX)); int y = static_cast<int>(std::floor(sceneY)); const Orthanc::ImageAccessor& image = texture.GetTexture(); if (x >= 0 && y >= 0 && x < static_cast<int>(image.GetWidth()) && y < static_cast<int>(image.GetHeight())) { char buf[64]; switch (image.GetFormat()) { case Orthanc::PixelFormat_Float32: sprintf(buf, "(%d,%d): %.01f", x, y, Orthanc::ImageTraits<Orthanc::PixelFormat_Float32>::GetFloatPixel( image, static_cast<unsigned int>(x), static_cast<unsigned int>(y))); break; case Orthanc::PixelFormat_RGB24: { Orthanc::PixelTraits<Orthanc::PixelFormat_RGB24>::PixelType pixel; Orthanc::ImageTraits<Orthanc::PixelFormat_RGB24>::GetPixel( pixel, image, static_cast<unsigned int>(x), static_cast<unsigned int>(y)); sprintf(buf, "(%d,%d): (%d,%d,%d)", x, y, pixel.red_, pixel.green_, pixel.blue_); break; } default: break; } label_.SetText(buf); } else { label_.SetText("?"); } } } public: PixelProbeAnnotation(AnnotationsSceneLayer& that, const ScenePoint2D& p) : ProbingAnnotation(that), handle_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_CrossedSquare, p))), label_(AddTypedPrimitive<Text>(new Text(that, *this))) { TextSceneLayer content; content.SetPosition(handle_.GetCenter().GetX(), handle_.GetCenter().GetY()); content.SetAnchor(BitmapAnchor_CenterLeft); content.SetBorder(10); content.SetText("?"); label_.SetContent(content); label_.SetColor(COLOR_TEXT); } virtual unsigned int GetHandlesCount() const ORTHANC_OVERRIDE { return 1; } virtual Handle& GetHandle(unsigned int index) const ORTHANC_OVERRIDE { if (index == 0) { return handle_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { label_.SetPosition(handle_.GetCenter().GetX(), handle_.GetCenter().GetY()); TagProbeAsChanged(); } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_PIXEL_PROBE; target[KEY_X] = handle_.GetCenter().GetX(); target[KEY_Y] = handle_.GetCenter().GetY(); } static void Unserialize(AnnotationsSceneLayer& target, const Json::Value& source) { if (source.isMember(KEY_X) && source.isMember(KEY_Y) && source[KEY_X].isNumeric() && source[KEY_Y].isNumeric()) { new PixelProbeAnnotation(target, ScenePoint2D(source[KEY_X].asDouble(), source[KEY_Y].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize a pixel probe"); } } }; class AnnotationsSceneLayer::AngleAnnotation : public Annotation { private: Handle& startHandle_; Handle& middleHandle_; Handle& endHandle_; Segment& segment1_; Segment& segment2_; Arc& arc_; Text& label_; void UpdateLabel() { TextSceneLayer content; const double x1 = startHandle_.GetCenter().GetX(); const double x2 = middleHandle_.GetCenter().GetX(); const double y2 = middleHandle_.GetCenter().GetY(); const double x3 = endHandle_.GetCenter().GetX(); if (x2 < x1 && x2 < x3) { content.SetAnchor(BitmapAnchor_CenterRight); } else { content.SetAnchor(BitmapAnchor_CenterLeft); } content.SetPosition(x2, y2); content.SetBorder(10); char buf[32]; sprintf(buf, "%.01f%c%c", std::abs(arc_.GetAngle()) / PI * 180.0, 0xc2, 0xb0 /* two bytes corresponding to degree symbol in UTF-8 */); content.SetText(buf); label_.SetContent(content); } public: AngleAnnotation(AnnotationsSceneLayer& that, const ScenePoint2D& start, const ScenePoint2D& middle, const ScenePoint2D& end) : Annotation(that), startHandle_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, start))), middleHandle_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, middle))), endHandle_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, end))), segment1_(AddTypedPrimitive<Segment>(new Segment(*this, start, middle))), segment2_(AddTypedPrimitive<Segment>(new Segment(*this, middle, end))), arc_(AddTypedPrimitive<Arc>(new Arc(*this, start, middle, end))), label_(AddTypedPrimitive<Text>(new Text(that, *this))) { label_.SetColor(COLOR_TEXT); UpdateLabel(); } virtual unsigned int GetHandlesCount() const ORTHANC_OVERRIDE { return 3; } virtual Handle& GetHandle(unsigned int index) const ORTHANC_OVERRIDE { switch (index) { case 0: return startHandle_; case 1: return middleHandle_; case 2: return endHandle_; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { if (&primitive == &startHandle_) { segment1_.SetPosition(startHandle_.GetCenter(), middleHandle_.GetCenter()); arc_.SetStart(startHandle_.GetCenter()); } else if (&primitive == &middleHandle_) { segment1_.SetPosition(startHandle_.GetCenter(), middleHandle_.GetCenter()); segment2_.SetPosition(middleHandle_.GetCenter(), endHandle_.GetCenter()); arc_.SetMiddle(middleHandle_.GetCenter()); } else if (&primitive == &endHandle_) { segment2_.SetPosition(middleHandle_.GetCenter(), endHandle_.GetCenter()); arc_.SetEnd(endHandle_.GetCenter()); } else if (&primitive == &segment1_) { startHandle_.SetCenter(segment1_.GetPosition1()); middleHandle_.SetCenter(segment1_.GetPosition2()); segment2_.SetPosition(segment1_.GetPosition2(), segment2_.GetPosition2()); arc_.SetStart(segment1_.GetPosition1()); arc_.SetMiddle(segment1_.GetPosition2()); } else if (&primitive == &segment2_) { middleHandle_.SetCenter(segment2_.GetPosition1()); endHandle_.SetCenter(segment2_.GetPosition2()); segment1_.SetPosition(segment1_.GetPosition1(), segment2_.GetPosition1()); arc_.SetMiddle(segment2_.GetPosition1()); arc_.SetEnd(segment2_.GetPosition2()); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } UpdateLabel(); } virtual void UpdateProbe(const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_ANGLE; target[KEY_X1] = startHandle_.GetCenter().GetX(); target[KEY_Y1] = startHandle_.GetCenter().GetY(); target[KEY_X2] = middleHandle_.GetCenter().GetX(); target[KEY_Y2] = middleHandle_.GetCenter().GetY(); target[KEY_X3] = endHandle_.GetCenter().GetX(); target[KEY_Y3] = endHandle_.GetCenter().GetY(); } static void Unserialize(AnnotationsSceneLayer& target, const Json::Value& source) { if (source.isMember(KEY_X1) && source.isMember(KEY_Y1) && source.isMember(KEY_X2) && source.isMember(KEY_Y2) && source.isMember(KEY_X3) && source.isMember(KEY_Y3) && source[KEY_X1].isNumeric() && source[KEY_Y1].isNumeric() && source[KEY_X2].isNumeric() && source[KEY_Y2].isNumeric() && source[KEY_X3].isNumeric() && source[KEY_Y3].isNumeric()) { new AngleAnnotation(target, ScenePoint2D(source[KEY_X1].asDouble(), source[KEY_Y1].asDouble()), ScenePoint2D(source[KEY_X2].asDouble(), source[KEY_Y2].asDouble()), ScenePoint2D(source[KEY_X3].asDouble(), source[KEY_Y3].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize an angle annotation"); } } }; class AnnotationsSceneLayer::CircleAnnotation : public Annotation { private: Units units_; Handle& handle1_; Handle& handle2_; Segment& segment_; Circle& circle_; Text& label_; void UpdateLabel() { TextSceneLayer content; double x1 = handle1_.GetCenter().GetX(); double y1 = handle1_.GetCenter().GetY(); double x2 = handle2_.GetCenter().GetX(); double y2 = handle2_.GetCenter().GetY(); // Put the label to the right of the right-most handle if (x1 < x2) { content.SetPosition(x2, y2); } else { content.SetPosition(x1, y1); } content.SetAnchor(BitmapAnchor_CenterLeft); content.SetBorder(10); double dx = x1 - x2; double dy = y1 - y2; double diameter = sqrt(dx * dx + dy * dy); // in millimeters double area = PI * diameter * diameter / 4.0; char buf[32]; switch (units_) { case Units_Millimeters: sprintf(buf, "%0.2f cm\n%0.2f cm%c%c", diameter / 10.0, area / 100.0, 0xc2, 0xb2 /* two bytes corresponding to two power in UTF-8 */); break; case Units_Pixels: // Don't report area (pixel-times-pixel is a strange unit) sprintf(buf, "%0.1f px", diameter); break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } content.SetText(buf); label_.SetContent(content); } public: CircleAnnotation(AnnotationsSceneLayer& that, Units units, const ScenePoint2D& p1, const ScenePoint2D& p2) : Annotation(that), units_(units), handle1_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, p1))), handle2_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, p2))), segment_(AddTypedPrimitive<Segment>(new Segment(*this, p1, p2))), circle_(AddTypedPrimitive<Circle>(new Circle(*this, p1, p2))), label_(AddTypedPrimitive<Text>(new Text(that, *this))) { label_.SetColor(COLOR_TEXT); UpdateLabel(); } virtual unsigned int GetHandlesCount() const ORTHANC_OVERRIDE { return 2; } virtual Handle& GetHandle(unsigned int index) const ORTHANC_OVERRIDE { switch (index) { case 0: return handle1_; case 1: return handle2_; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { if (&primitive == &handle1_ || &primitive == &handle2_) { segment_.SetPosition(handle1_.GetCenter(), handle2_.GetCenter()); circle_.SetPosition(handle1_.GetCenter(), handle2_.GetCenter()); } else if (&primitive == &segment_) { handle1_.SetCenter(segment_.GetPosition1()); handle2_.SetCenter(segment_.GetPosition2()); circle_.SetPosition(segment_.GetPosition1(), segment_.GetPosition2()); } else if (&primitive == &circle_) { handle1_.SetCenter(circle_.GetPosition1()); handle2_.SetCenter(circle_.GetPosition2()); segment_.SetPosition(circle_.GetPosition1(), circle_.GetPosition2()); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } UpdateLabel(); } virtual void UpdateProbe(const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_CIRCLE; target[KEY_X1] = handle1_.GetCenter().GetX(); target[KEY_Y1] = handle1_.GetCenter().GetY(); target[KEY_X2] = handle2_.GetCenter().GetX(); target[KEY_Y2] = handle2_.GetCenter().GetY(); } static void Unserialize(AnnotationsSceneLayer& target, Units units, const Json::Value& source) { if (source.isMember(KEY_X1) && source.isMember(KEY_Y1) && source.isMember(KEY_X2) && source.isMember(KEY_Y2) && source[KEY_X1].isNumeric() && source[KEY_Y1].isNumeric() && source[KEY_X2].isNumeric() && source[KEY_Y2].isNumeric()) { new CircleAnnotation(target, units, ScenePoint2D(source[KEY_X1].asDouble(), source[KEY_Y1].asDouble()), ScenePoint2D(source[KEY_X2].asDouble(), source[KEY_Y2].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize an circle annotation"); } } }; class AnnotationsSceneLayer::RectangleProbeAnnotation : public ProbingAnnotation { private: Units units_; Handle& handle1_; Handle& handle2_; Segment& segment1_; Segment& segment2_; Segment& segment3_; Segment& segment4_; Text& label_; protected: virtual void UpdateProbeForLayer(const ISceneLayer& layer) ORTHANC_OVERRIDE { double x1 = handle1_.GetCenter().GetX(); double y1 = handle1_.GetCenter().GetY(); double x2 = handle2_.GetCenter().GetX(); double y2 = handle2_.GetCenter().GetY(); { // Put the label to the right of the right-most handle //const double y = std::min(y1, y2); const double y = (y1 + y2) / 2.0; if (x1 < x2) { label_.SetPosition(x2, y); } else { label_.SetPosition(x1, y); } } std::string text; char buf[32]; if (units_ == Units_Millimeters) { const double area = std::abs(x1 - x2) * std::abs(y1 - y2); sprintf(buf, "Area: %0.2f cm%c%c", area / 100.0, 0xc2, 0xb2 /* two bytes corresponding to two power in UTF-8 */); text = buf; } if (layer.GetType() == ISceneLayer::Type_FloatTexture) { const TextureBaseSceneLayer& texture = dynamic_cast<const TextureBaseSceneLayer&>(layer); const AffineTransform2D sceneToTexture = AffineTransform2D::Invert(texture.GetTransform()); const Orthanc::ImageAccessor& image = texture.GetTexture(); assert(image.GetFormat() == Orthanc::PixelFormat_Float32); sceneToTexture.Apply(x1, y1); sceneToTexture.Apply(x2, y2); int ix1 = static_cast<int>(std::floor(x1)); int iy1 = static_cast<int>(std::floor(y1)); int ix2 = static_cast<int>(std::floor(x2)); int iy2 = static_cast<int>(std::floor(y2)); if (ix1 > ix2) { std::swap(ix1, ix2); } if (iy1 > iy2) { std::swap(iy1, iy2); } LinearAlgebra::OnlineVarianceEstimator estimator; for (int y = std::max(0, iy1); y <= std::min(static_cast<int>(image.GetHeight()) - 1, iy2); y++) { int x = std::max(0, ix1); const float* p = reinterpret_cast<const float*>(image.GetConstRow(y)) + x; for (; x <= std::min(static_cast<int>(image.GetWidth()) - 1, ix2); x++, p++) { estimator.AddSample(*p); } } if (estimator.GetCount() > 0) { if (!text.empty()) { text += "\n"; } sprintf(buf, "Mean: %0.1f\nStdDev: %0.1f", estimator.GetMean(), estimator.GetStandardDeviation()); text += buf; } } label_.SetText(text); } public: RectangleProbeAnnotation(AnnotationsSceneLayer& that, Units units, const ScenePoint2D& p1, const ScenePoint2D& p2) : ProbingAnnotation(that), units_(units), handle1_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, p1))), handle2_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, p2))), segment1_(AddTypedPrimitive<Segment>(new Segment(*this, p1.GetX(), p1.GetY(), p2.GetX(), p1.GetY()))), segment2_(AddTypedPrimitive<Segment>(new Segment(*this, p2.GetX(), p1.GetY(), p2.GetX(), p2.GetY()))), segment3_(AddTypedPrimitive<Segment>(new Segment(*this, p1.GetX(), p2.GetY(), p2.GetX(), p2.GetY()))), segment4_(AddTypedPrimitive<Segment>(new Segment(*this, p1.GetX(), p1.GetY(), p1.GetX(), p2.GetY()))), label_(AddTypedPrimitive<Text>(new Text(that, *this))) { TextSceneLayer content; content.SetAnchor(BitmapAnchor_CenterLeft); content.SetBorder(10); content.SetText("?"); label_.SetContent(content); label_.SetColor(COLOR_TEXT); } virtual unsigned int GetHandlesCount() const ORTHANC_OVERRIDE { return 2; } virtual Handle& GetHandle(unsigned int index) const ORTHANC_OVERRIDE { switch (index) { case 0: return handle1_; case 1: return handle2_; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { if (&primitive == &handle1_ || &primitive == &handle2_) { double x1 = handle1_.GetCenter().GetX(); double y1 = handle1_.GetCenter().GetY(); double x2 = handle2_.GetCenter().GetX(); double y2 = handle2_.GetCenter().GetY(); segment1_.SetPosition(x1, y1, x2, y1); segment2_.SetPosition(x2, y1, x2, y2); segment3_.SetPosition(x1, y2, x2, y2); segment4_.SetPosition(x1, y1, x1, y2); } else if (&primitive == &segment1_ || &primitive == &segment2_ || &primitive == &segment3_ || &primitive == &segment4_) { const Segment& segment = dynamic_cast<const Segment&>(primitive); double x1 = segment.GetPosition1().GetX(); double y1 = segment.GetPosition1().GetY(); double x2 = segment.GetPosition2().GetX(); double y2 = segment.GetPosition2().GetY(); if (&primitive == &segment1_) { y2 = y1 + handle2_.GetCenter().GetY() - handle1_.GetCenter().GetY(); } else if (&primitive == &segment2_) { x1 = x2 + handle1_.GetCenter().GetX() - handle2_.GetCenter().GetX(); } else if (&primitive == &segment3_) { y1 = y2 + handle1_.GetCenter().GetY() - handle2_.GetCenter().GetY(); } else if (&primitive == &segment4_) { x2 = x1 + handle2_.GetCenter().GetX() - handle1_.GetCenter().GetX(); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } handle1_.SetCenter(x1, y1); handle2_.SetCenter(x2, y2); if (&primitive != &segment1_) { segment1_.SetPosition(x1, y1, x2, y1); } if (&primitive != &segment2_) { segment2_.SetPosition(x2, y1, x2, y2); } if (&primitive != &segment3_) { segment3_.SetPosition(x1, y2, x2, y2); } if (&primitive != &segment4_) { segment4_.SetPosition(x1, y1, x1, y2); } } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } TagProbeAsChanged(); } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_RECTANGLE_PROBE; target[KEY_X1] = handle1_.GetCenter().GetX(); target[KEY_Y1] = handle1_.GetCenter().GetY(); target[KEY_X2] = handle2_.GetCenter().GetX(); target[KEY_Y2] = handle2_.GetCenter().GetY(); } static void Unserialize(AnnotationsSceneLayer& target, Units units, const Json::Value& source) { if (source.isMember(KEY_X1) && source.isMember(KEY_Y1) && source.isMember(KEY_X2) && source.isMember(KEY_Y2) && source[KEY_X1].isNumeric() && source[KEY_Y1].isNumeric() && source[KEY_X2].isNumeric() && source[KEY_Y2].isNumeric()) { new RectangleProbeAnnotation(target, units, ScenePoint2D(source[KEY_X1].asDouble(), source[KEY_Y1].asDouble()), ScenePoint2D(source[KEY_X2].asDouble(), source[KEY_Y2].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize a rectangle probe annotation"); } } }; class AnnotationsSceneLayer::EllipseProbeAnnotation : public ProbingAnnotation { private: Units units_; Handle& handle1_; Handle& handle2_; Ellipse& ellipse_; Text& label_; protected: virtual void UpdateProbeForLayer(const ISceneLayer& layer) ORTHANC_OVERRIDE { double x1 = handle1_.GetCenter().GetX(); double y1 = handle1_.GetCenter().GetY(); double x2 = handle2_.GetCenter().GetX(); double y2 = handle2_.GetCenter().GetY(); { // Put the label to the right of the right-most handle //const double y = std::min(y1, y2); const double y = (y1 + y2) / 2.0; if (x1 < x2) { label_.SetPosition(x2, y); } else { label_.SetPosition(x1, y); } } std::string text; char buf[32]; if (units_ == Units_Millimeters) { sprintf(buf, "Area: %0.2f cm%c%c", ellipse_.GetArea() / 100.0, 0xc2, 0xb2 /* two bytes corresponding to two power in UTF-8 */); text = buf; } if (layer.GetType() == ISceneLayer::Type_FloatTexture) { const TextureBaseSceneLayer& texture = dynamic_cast<const TextureBaseSceneLayer&>(layer); const AffineTransform2D& textureToScene = texture.GetTransform(); const AffineTransform2D sceneToTexture = AffineTransform2D::Invert(textureToScene); const Orthanc::ImageAccessor& image = texture.GetTexture(); assert(image.GetFormat() == Orthanc::PixelFormat_Float32); sceneToTexture.Apply(x1, y1); sceneToTexture.Apply(x2, y2); int ix1 = static_cast<int>(std::floor(x1)); int iy1 = static_cast<int>(std::floor(y1)); int ix2 = static_cast<int>(std::floor(x2)); int iy2 = static_cast<int>(std::floor(y2)); if (ix1 > ix2) { std::swap(ix1, ix2); } if (iy1 > iy2) { std::swap(iy1, iy2); } LinearAlgebra::OnlineVarianceEstimator estimator; for (int y = std::max(0, iy1); y <= std::min(static_cast<int>(image.GetHeight()) - 1, iy2); y++) { int x = std::max(0, ix1); const float* p = reinterpret_cast<const float*>(image.GetConstRow(y)) + x; for (; x <= std::min(static_cast<int>(image.GetWidth()) - 1, ix2); x++, p++) { double yy = static_cast<double>(y) + 0.5; double xx = static_cast<double>(x) + 0.5; textureToScene.Apply(xx, yy); if (ellipse_.IsPointInside(ScenePoint2D(xx, yy))) { estimator.AddSample(*p); } } } if (estimator.GetCount() > 0) { if (!text.empty()) { text += "\n"; } sprintf(buf, "Mean: %0.1f\nStdDev: %0.1f", estimator.GetMean(), estimator.GetStandardDeviation()); text += buf; } } label_.SetText(text); } public: EllipseProbeAnnotation(AnnotationsSceneLayer& that, Units units, const ScenePoint2D& p1, const ScenePoint2D& p2) : ProbingAnnotation(that), units_(units), handle1_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, p1))), handle2_(AddTypedPrimitive<Handle>(new Handle(*this, Handle::Shape_Square, p2))), ellipse_(AddTypedPrimitive<Ellipse>(new Ellipse(*this, p1, p2))), label_(AddTypedPrimitive<Text>(new Text(that, *this))) { TextSceneLayer content; content.SetAnchor(BitmapAnchor_CenterLeft); content.SetBorder(10); content.SetText("?"); label_.SetContent(content); label_.SetColor(COLOR_TEXT); } virtual unsigned int GetHandlesCount() const ORTHANC_OVERRIDE { return 2; } virtual Handle& GetHandle(unsigned int index) const ORTHANC_OVERRIDE { switch (index) { case 0: return handle1_; case 1: return handle2_; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } virtual void SignalMove(GeometricPrimitive& primitive, const Scene2D& scene) ORTHANC_OVERRIDE { if (&primitive == &handle1_ || &primitive == &handle2_) { ellipse_.SetPosition(handle1_.GetCenter(), handle2_.GetCenter()); } else if (&primitive == &ellipse_) { handle1_.SetCenter(ellipse_.GetPosition1()); handle2_.SetCenter(ellipse_.GetPosition2()); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_NotImplemented); } TagProbeAsChanged(); } virtual void Serialize(Json::Value& target) ORTHANC_OVERRIDE { target = Json::objectValue; target[KEY_TYPE] = VALUE_ELLIPSE_PROBE; target[KEY_X1] = handle1_.GetCenter().GetX(); target[KEY_Y1] = handle1_.GetCenter().GetY(); target[KEY_X2] = handle2_.GetCenter().GetX(); target[KEY_Y2] = handle2_.GetCenter().GetY(); } static void Unserialize(AnnotationsSceneLayer& target, Units units, const Json::Value& source) { if (source.isMember(KEY_X1) && source.isMember(KEY_Y1) && source.isMember(KEY_X2) && source.isMember(KEY_Y2) && source[KEY_X1].isNumeric() && source[KEY_Y1].isNumeric() && source[KEY_X2].isNumeric() && source[KEY_Y2].isNumeric()) { new EllipseProbeAnnotation(target, units, ScenePoint2D(source[KEY_X1].asDouble(), source[KEY_Y1].asDouble()), ScenePoint2D(source[KEY_X2].asDouble(), source[KEY_Y2].asDouble())); } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize an ellipse probe annotation"); } } }; class AnnotationsSceneLayer::CreateTwoHandlesTracker : public IFlexiblePointerTracker { private: AnnotationsSceneLayer& layer_; Annotation* annotation_; AffineTransform2D canvasToScene_; protected: AnnotationsSceneLayer& GetLayer() const { return layer_; } const Annotation& GetAnnotation() const { if (IsAlive()) { assert(annotation_ != NULL); return *annotation_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } public: CreateTwoHandlesTracker(Annotation& annotation, const AffineTransform2D& canvasToScene) : layer_(annotation.GetParentLayer()), annotation_(&annotation), canvasToScene_(canvasToScene) { assert(annotation_ != NULL && annotation_->GetHandlesCount() >= 2); } virtual void PointerMove(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { if (annotation_ != NULL) { annotation_->GetHandle(1).SetCenter(event.GetMainPosition().Apply(canvasToScene_)); annotation_->SignalMove(annotation_->GetHandle(1), scene); layer_.BroadcastMessage(AnnotationChangedMessage(layer_)); } } virtual void PointerUp(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { annotation_ = NULL; // IsAlive() becomes false layer_.BroadcastMessage(AnnotationAddedMessage(layer_)); } virtual void PointerDown(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual bool IsAlive() const ORTHANC_OVERRIDE { return (annotation_ != NULL); } virtual void Cancel(const Scene2D& scene) ORTHANC_OVERRIDE { if (annotation_ != NULL) { layer_.DeleteAnnotation(annotation_); annotation_ = NULL; } } }; class AnnotationsSceneLayer::CreateAngleTracker : public IFlexiblePointerTracker { private: AnnotationsSceneLayer& that_; LengthAnnotation* length_; AngleAnnotation* angle_; AffineTransform2D canvasToScene_; public: CreateAngleTracker(AnnotationsSceneLayer& that, const ScenePoint2D& sceneClick, const AffineTransform2D& canvasToScene) : that_(that), length_(NULL), angle_(NULL), canvasToScene_(canvasToScene) { length_ = new LengthAnnotation(that, that.GetUnits(), false /* no length label */, sceneClick, sceneClick); } virtual void PointerMove(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { if (length_ != NULL) { length_->GetHandle(1).SetCenter(event.GetMainPosition().Apply(canvasToScene_)); length_->SignalMove(length_->GetHandle(1), scene); that_.BroadcastMessage(AnnotationChangedMessage(that_)); } if (angle_ != NULL) { angle_->GetHandle(2).SetCenter(event.GetMainPosition().Apply(canvasToScene_)); angle_->SignalMove(angle_->GetHandle(2), scene); that_.BroadcastMessage(AnnotationChangedMessage(that_)); } } virtual void PointerUp(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { if (length_ != NULL) { // End of first step: The first segment is available, now create the angle angle_ = new AngleAnnotation(that_, length_->GetHandle(0).GetCenter(), length_->GetHandle(1).GetCenter(), length_->GetHandle(1).GetCenter()); that_.DeleteAnnotation(length_); length_ = NULL; that_.BroadcastMessage(AnnotationChangedMessage(that_)); } else { angle_ = NULL; // IsAlive() becomes false that_.BroadcastMessage(AnnotationAddedMessage(that_)); } } virtual void PointerDown(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual bool IsAlive() const ORTHANC_OVERRIDE { return (length_ != NULL || angle_ != NULL); } virtual void Cancel(const Scene2D& scene) ORTHANC_OVERRIDE { if (length_ != NULL) { that_.DeleteAnnotation(length_); length_ = NULL; } if (angle_ != NULL) { that_.DeleteAnnotation(angle_); angle_ = NULL; } } }; class AnnotationsSceneLayer::CreatePixelProbeTracker : public IFlexiblePointerTracker { public: CreatePixelProbeTracker(AnnotationsSceneLayer& that, const ScenePoint2D& sceneClick, const Scene2D& scene) { PixelProbeAnnotation* annotation = new PixelProbeAnnotation(that, sceneClick); annotation->UpdateProbe(scene); that.BroadcastMessage(AnnotationAddedMessage(that)); } virtual void PointerMove(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void PointerUp(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void PointerDown(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual bool IsAlive() const ORTHANC_OVERRIDE { return false; } virtual void Cancel(const Scene2D& scene) ORTHANC_OVERRIDE { } }; class AnnotationsSceneLayer::CreateTextAnnotationTracker : public CreateTwoHandlesTracker { public: CreateTextAnnotationTracker(AnnotationsSceneLayer& that, const std::string& label, const ScenePoint2D& position, const AffineTransform2D& canvasToScene) : CreateTwoHandlesTracker(*new TextAnnotation(that, label, position, position), canvasToScene) { } virtual void PointerUp(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { std::unique_ptr<TextAnnotationRequiredMessage> request; { const TextAnnotation& annotation = dynamic_cast<const TextAnnotation&>(GetAnnotation()); request.reset(new TextAnnotationRequiredMessage(GetLayer(), annotation.GetPointedPosition(), annotation.GetLabelPosition())); } Cancel(scene); // Warning: "annotation_" is now invalid! GetLayer().BroadcastMessage(AnnotationChangedMessage(GetLayer())); GetLayer().BroadcastMessage(*request); } }; // Dummy tracker that is only used for deletion, in order to warn // the caller that the mouse action was taken into consideration class AnnotationsSceneLayer::RemoveTracker : public IFlexiblePointerTracker { public: RemoveTracker() { } virtual void PointerMove(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void PointerUp(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual void PointerDown(const PointerEvent& event, const Scene2D& scene) ORTHANC_OVERRIDE { } virtual bool IsAlive() const ORTHANC_OVERRIDE { return false; } virtual void Cancel(const Scene2D& scene) ORTHANC_OVERRIDE { } }; void AnnotationsSceneLayer::AddAnnotation(Annotation* annotation) { assert(annotation != NULL); assert(annotations_.find(annotation) == annotations_.end()); annotations_.insert(annotation); } void AnnotationsSceneLayer::DeleteAnnotation(Annotation* annotation) { if (annotation != NULL) { assert(annotations_.find(annotation) != annotations_.end()); annotations_.erase(annotation); delete annotation; } } void AnnotationsSceneLayer::DeletePrimitive(GeometricPrimitive* primitive) { if (primitive != NULL) { assert(primitives_.find(primitive) != primitives_.end()); primitives_.erase(primitive); delete primitive; } } void AnnotationsSceneLayer::TagSubLayerToRemove(size_t subLayerIndex) { assert(subLayersToRemove_.find(subLayerIndex) == subLayersToRemove_.end()); subLayersToRemove_.insert(subLayerIndex); } AnnotationsSceneLayer::AnnotationsSceneLayer(size_t macroLayerIndex) : activeTool_(Tool_Edit), macroLayerIndex_(macroLayerIndex), polylineSubLayer_(0), // dummy initialization units_(Units_Pixels), probedLayer_(0) { } void AnnotationsSceneLayer::Clear() { for (Annotations::iterator it = annotations_.begin(); it != annotations_.end(); ++it) { assert(*it != NULL); delete *it; } annotations_.clear(); ClearHover(); } void AnnotationsSceneLayer::SetUnits(Units units) { if (units_ != units) { Clear(); units_ = units; } } void AnnotationsSceneLayer::AddLengthAnnotation(const ScenePoint2D& p1, const ScenePoint2D& p2) { annotations_.insert(new LengthAnnotation(*this, units_, true /* show label */, p1, p2)); BroadcastMessage(AnnotationChangedMessage(*this)); } void AnnotationsSceneLayer::AddCircleAnnotation(const ScenePoint2D& p1, const ScenePoint2D& p2) { annotations_.insert(new CircleAnnotation(*this, units_, p1, p2)); BroadcastMessage(AnnotationChangedMessage(*this)); } void AnnotationsSceneLayer::AddAngleAnnotation(const ScenePoint2D& p1, const ScenePoint2D& p2, const ScenePoint2D& p3) { annotations_.insert(new AngleAnnotation(*this, p1, p2, p3)); BroadcastMessage(AnnotationChangedMessage(*this)); } void AnnotationsSceneLayer::Render(Scene2D& scene) { // First, update the probes for (Annotations::const_iterator it = annotations_.begin(); it != annotations_.end(); ++it) { assert(*it != NULL); (*it)->UpdateProbe(scene); } MacroSceneLayer* macro = NULL; if (scene.HasLayer(macroLayerIndex_)) { macro = &dynamic_cast<MacroSceneLayer&>(scene.GetLayer(macroLayerIndex_)); } else { macro = &dynamic_cast<MacroSceneLayer&>(scene.SetLayer(macroLayerIndex_, new MacroSceneLayer)); polylineSubLayer_ = macro->AddLayer(new PolylineSceneLayer); } for (SubLayers::const_iterator it = subLayersToRemove_.begin(); it != subLayersToRemove_.end(); ++it) { assert(macro->HasLayer(*it)); macro->DeleteLayer(*it); } subLayersToRemove_.clear(); std::unique_ptr<PolylineSceneLayer> polyline(new PolylineSceneLayer); for (GeometricPrimitives::iterator it = primitives_.begin(); it != primitives_.end(); ++it) { assert(*it != NULL); GeometricPrimitive& primitive = **it; primitive.RenderPolylineLayer(*polyline, scene); if (primitive.IsModified()) { primitive.RenderOtherLayers(*macro, scene); primitive.SetModified(false); } } macro->UpdateLayer(polylineSubLayer_, polyline.release()); } bool AnnotationsSceneLayer::ClearHover() { bool needsRefresh = false; for (GeometricPrimitives::iterator it = primitives_.begin(); it != primitives_.end(); ++it) { assert(*it != NULL); if ((*it)->IsHover()) { (*it)->SetHover(false); needsRefresh = true; } } return needsRefresh; } bool AnnotationsSceneLayer::SetMouseHover(const ScenePoint2D& p, const Scene2D& scene) { if (activeTool_ == Tool_None) { return ClearHover(); } else { bool needsRefresh = false; const ScenePoint2D s = p.Apply(scene.GetCanvasToSceneTransform()); for (GeometricPrimitives::iterator it = primitives_.begin(); it != primitives_.end(); ++it) { assert(*it != NULL); bool hover = (*it)->IsHit(s, scene); if ((*it)->IsHover() != hover) { needsRefresh = true; } (*it)->SetHover(hover); } return needsRefresh; } } IFlexiblePointerTracker* AnnotationsSceneLayer::CreateTracker(const ScenePoint2D& p, const Scene2D& scene) { /** * WARNING: The created trackers must NOT keep a reference to "scene"! **/ if (activeTool_ == Tool_None) { return NULL; } else { const ScenePoint2D s = p.Apply(scene.GetCanvasToSceneTransform()); GeometricPrimitive* bestHit = NULL; for (GeometricPrimitives::iterator it = primitives_.begin(); it != primitives_.end(); ++it) { assert(*it != NULL); if ((*it)->IsHit(s, scene)) { if (bestHit == NULL || bestHit->GetDepth() > (*it)->GetDepth()) { bestHit = *it; } } } if (bestHit != NULL) { if (activeTool_ == Tool_Remove) { DeleteAnnotation(&bestHit->GetParentAnnotation()); BroadcastMessage(AnnotationRemovedMessage(*this)); return new RemoveTracker; } else { return new EditPrimitiveTracker(*this, *bestHit, s, scene.GetCanvasToSceneTransform()); } } else { switch (activeTool_) { case Tool_Length: { Annotation* annotation = new LengthAnnotation(*this, units_, true /* show label */, s, s); return new CreateTwoHandlesTracker(*annotation, scene.GetCanvasToSceneTransform()); } case Tool_Circle: { Annotation* annotation = new CircleAnnotation(*this, units_, s, s); return new CreateTwoHandlesTracker(*annotation, scene.GetCanvasToSceneTransform()); } case Tool_Angle: return new CreateAngleTracker(*this, s, scene.GetCanvasToSceneTransform()); case Tool_PixelProbe: return new CreatePixelProbeTracker(*this, s, scene); case Tool_RectangleProbe: { Annotation* annotation = new RectangleProbeAnnotation(*this, units_, s, s); return new CreateTwoHandlesTracker(*annotation, scene.GetCanvasToSceneTransform()); } case Tool_EllipseProbe: { Annotation* annotation = new EllipseProbeAnnotation(*this, units_, s, s); return new CreateTwoHandlesTracker(*annotation, scene.GetCanvasToSceneTransform()); } case Tool_TextAnnotation: return new CreateTextAnnotationTracker(*this, "" /* empty label */, s, scene.GetCanvasToSceneTransform()); default: return NULL; } } } } void AnnotationsSceneLayer::Serialize(Json::Value& target) const { Json::Value annotations = Json::arrayValue; for (Annotations::const_iterator it = annotations_.begin(); it != annotations_.end(); ++it) { assert(*it != NULL); Json::Value item; (*it)->Serialize(item); annotations.append(item); } target = Json::objectValue; target[KEY_ANNOTATIONS] = annotations; switch (units_) { case Units_Millimeters: target[KEY_UNITS] = VALUE_MILLIMETERS; break; case Units_Pixels: target[KEY_UNITS] = VALUE_PIXELS; break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } void AnnotationsSceneLayer::Unserialize(const Json::Value& serialized) { Clear(); if (serialized.type() != Json::objectValue || !serialized.isMember(KEY_ANNOTATIONS) || !serialized.isMember(KEY_UNITS) || serialized[KEY_ANNOTATIONS].type() != Json::arrayValue || serialized[KEY_UNITS].type() != Json::stringValue) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Cannot unserialize a set of annotations"); } const std::string& u = serialized[KEY_UNITS].asString(); if (u == VALUE_MILLIMETERS) { units_ = Units_Millimeters; } else if (u == VALUE_PIXELS) { units_ = Units_Pixels; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat, "Unknown units: " + u); } const Json::Value& annotations = serialized[KEY_ANNOTATIONS]; for (Json::Value::ArrayIndex i = 0; i < annotations.size(); i++) { if (annotations[i].type() != Json::objectValue || !annotations[i].isMember(KEY_TYPE) || annotations[i][KEY_TYPE].type() != Json::stringValue) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat); } const std::string& type = annotations[i][KEY_TYPE].asString(); if (type == VALUE_ANGLE) { AngleAnnotation::Unserialize(*this, annotations[i]); } else if (type == VALUE_CIRCLE) { CircleAnnotation::Unserialize(*this, units_, annotations[i]); } else if (type == VALUE_LENGTH) { LengthAnnotation::Unserialize(*this, units_, annotations[i]); } else if (type == VALUE_PIXEL_PROBE) { PixelProbeAnnotation::Unserialize(*this, annotations[i]); } else if (type == VALUE_RECTANGLE_PROBE) { RectangleProbeAnnotation::Unserialize(*this, units_, annotations[i]); } else if (type == VALUE_ELLIPSE_PROBE) { EllipseProbeAnnotation::Unserialize(*this, units_, annotations[i]); } else if (type == VALUE_TEXT_ANNOTATION) { TextAnnotation::Unserialize(*this, annotations[i]); } else { LOG(ERROR) << "Cannot unserialize unknown type of annotation: " << type; } } } void AnnotationsSceneLayer::AddTextAnnotation(const std::string& label, const ScenePoint2D& pointedPosition, const ScenePoint2D& labelPosition) { annotations_.insert(new TextAnnotation(*this, label, pointedPosition, labelPosition)); BroadcastMessage(AnnotationChangedMessage(*this)); } }