Mercurial > hg > orthanc-stone
view OrthancStone/Sources/Scene2DViewport/AngleMeasureTool.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 | 7053b8a0aaec |
children | 07964689cb0b |
line wrap: on
line source
/** * 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 "AngleMeasureTool.h" #include "MeasureToolsToolbox.h" #include "EditAngleMeasureTracker.h" #include "LayerHolder.h" #include "../StoneException.h" #include <Logging.h> #include <boost/math/constants/constants.hpp> #include <boost/make_shared.hpp> //// <HACK> //// REMOVE THIS //#ifndef NDEBUG //extern void //TrackerSample_SetInfoDisplayMessage(std::string key, std::string value); //#endif //// </HACK> namespace OrthancStone { // the params in the LayerHolder ctor specify the number of polyline and text // layers AngleMeasureTool::AngleMeasureTool( boost::weak_ptr<IViewport> viewport) : MeasureTool(viewport) #if ORTHANC_STONE_ENABLE_OUTLINED_TEXT == 1 , layerHolder_(boost::shared_ptr<LayerHolder>(new LayerHolder(viewport,1,5))) #else , layerHolder_(boost::shared_ptr<LayerHolder>(new LayerHolder(viewport,1,1))) #endif , angleHighlightArea_(AngleHighlightArea_None) { } boost::shared_ptr<AngleMeasureTool> AngleMeasureTool::Create(boost::weak_ptr<IViewport> viewport) { boost::shared_ptr<AngleMeasureTool> obj(new AngleMeasureTool(viewport)); obj->MeasureTool::PostConstructor(); obj->RefreshScene(); return obj; } AngleMeasureTool::~AngleMeasureTool() { // this measuring tool is a RABI for the corresponding visual layers // stored in the 2D scene Disable(); RemoveFromScene(); } void AngleMeasureTool::RemoveFromScene() { if (layerHolder_->AreLayersCreated() && IsSceneAlive()) { layerHolder_->DeleteLayers(); } } void AngleMeasureTool::SetSide1End(ScenePoint2D pt) { side1End_ = pt; RefreshScene(); } void AngleMeasureTool::SetSide2End(ScenePoint2D pt) { side2End_ = pt; RefreshScene(); } void AngleMeasureTool::SetAngleHighlightArea(AngleHighlightArea area) { if (angleHighlightArea_ != area) { angleHighlightArea_ = area; RefreshScene(); } } void AngleMeasureTool::ResetHighlightState() { SetAngleHighlightArea(AngleHighlightArea_None); } MeasureToolMemento* AngleMeasureTool::CreateMemento() const { std::unique_ptr<AngleMeasureToolMemento> memento(new AngleMeasureToolMemento()); memento->center_ = center_; memento->side1End_ = side1End_; memento->side2End_ = side2End_; return memento.release(); } void AngleMeasureTool::SetMemento(const MeasureToolMemento& mementoBase) { const AngleMeasureToolMemento& memento = dynamic_cast<const AngleMeasureToolMemento&>(mementoBase); center_ = memento.center_; side1End_ = memento.side1End_; side2End_ = memento.side2End_; RefreshScene(); } std::string AngleMeasureTool::GetDescription() { std::stringstream ss; ss << "AngleMeasureTool. Center = " << center_ << " Side1End = " << side1End_ << " Side2End = " << side2End_; return ss.str(); } void AngleMeasureTool::Highlight(ScenePoint2D p) { AngleHighlightArea angleHighlightArea = AngleHitTest(p); SetAngleHighlightArea(angleHighlightArea); } AngleMeasureTool::AngleHighlightArea AngleMeasureTool::AngleHitTest(ScenePoint2D p) const { std::unique_ptr<IViewport::ILock> lock(GetViewportLock()); const ViewportController& controller = lock->GetController(); const Scene2D& scene = controller.GetScene(); const double pixelToScene = scene.GetCanvasToSceneTransform().ComputeZoom(); const double SQUARED_HIT_TEST_MAX_DISTANCE_SCENE_COORD = pixelToScene * HIT_TEST_MAX_DISTANCE_CANVAS_COORD * pixelToScene * HIT_TEST_MAX_DISTANCE_CANVAS_COORD; { const double sqDistanceFromSide1End = ScenePoint2D::SquaredDistancePtPt(p, side1End_); if (sqDistanceFromSide1End <= SQUARED_HIT_TEST_MAX_DISTANCE_SCENE_COORD) return AngleHighlightArea_Side1End; } { const double sqDistanceFromSide2End = ScenePoint2D::SquaredDistancePtPt(p, side2End_); if (sqDistanceFromSide2End <= SQUARED_HIT_TEST_MAX_DISTANCE_SCENE_COORD) return AngleHighlightArea_Side2End; } { const double sqDistanceFromCenter = ScenePoint2D::SquaredDistancePtPt(p, center_); if (sqDistanceFromCenter <= SQUARED_HIT_TEST_MAX_DISTANCE_SCENE_COORD) return AngleHighlightArea_Center; } { const double sqDistanceFromSide1 = ScenePoint2D::SquaredDistancePtSegment(center_, side1End_, p); if (sqDistanceFromSide1 <= SQUARED_HIT_TEST_MAX_DISTANCE_SCENE_COORD) return AngleHighlightArea_Side1; } { const double sqDistanceFromSide2 = ScenePoint2D::SquaredDistancePtSegment(center_, side2End_, p); if (sqDistanceFromSide2 <= SQUARED_HIT_TEST_MAX_DISTANCE_SCENE_COORD) return AngleHighlightArea_Side2; } return AngleHighlightArea_None; } bool AngleMeasureTool::HitTest(ScenePoint2D p) { return AngleHitTest(p) != AngleHighlightArea_None; } boost::shared_ptr<IFlexiblePointerTracker> AngleMeasureTool::CreateEditionTracker(const PointerEvent& e) { std::unique_ptr<IViewport::ILock> lock(GetViewportLock()); ViewportController& controller = lock->GetController(); const Scene2D& scene = controller.GetScene(); ScenePoint2D scenePos = e.GetMainPosition().Apply( scene.GetCanvasToSceneTransform()); if (!HitTest(scenePos)) { return boost::shared_ptr<IFlexiblePointerTracker>(); // NULL } else { /** new EditLineMeasureTracker( boost::shared_ptr<LineMeasureTool> measureTool; MessageBroker & broker, boost::weak_ptr<IViewport> viewport, const PointerEvent & e); */ boost::shared_ptr<EditAngleMeasureTracker> editAngleMeasureTracker( new EditAngleMeasureTracker(shared_from_this(), viewport_, e)); return editAngleMeasureTracker; } } void AngleMeasureTool::SetCenter(ScenePoint2D pt) { center_ = pt; RefreshScene(); } void AngleMeasureTool::RefreshScene() { if (IsSceneAlive()) { std::unique_ptr<IViewport::ILock> lock(GetViewportLock()); ViewportController& controller = lock->GetController(); Scene2D& scene = controller.GetScene(); if (IsEnabled()) { layerHolder_->CreateLayersIfNeeded(); { // Fill the polyline layer with the measurement lines PolylineSceneLayer* polylineLayer = layerHolder_->GetPolylineLayer(0); if (polylineLayer) { polylineLayer->ClearAllChains(); const Color color(TOOL_ANGLE_LINES_COLOR_RED, TOOL_ANGLE_LINES_COLOR_GREEN, TOOL_ANGLE_LINES_COLOR_BLUE); const Color highlightColor(TOOL_ANGLE_LINES_HL_COLOR_RED, TOOL_ANGLE_LINES_HL_COLOR_GREEN, TOOL_ANGLE_LINES_HL_COLOR_BLUE); // sides { { PolylineSceneLayer::Chain chain; chain.push_back(side1End_); chain.push_back(center_); if ((angleHighlightArea_ == AngleHighlightArea_Side1) || (angleHighlightArea_ == AngleHighlightArea_Side2)) { polylineLayer->AddChain(chain, false, highlightColor); } else { polylineLayer->AddChain(chain, false, color); } } { PolylineSceneLayer::Chain chain; chain.push_back(side2End_); chain.push_back(center_); if ((angleHighlightArea_ == AngleHighlightArea_Side1) || (angleHighlightArea_ == AngleHighlightArea_Side2)) { polylineLayer->AddChain(chain, false, highlightColor); } else { polylineLayer->AddChain(chain, false, color); } } } // Create the handles { { PolylineSceneLayer::Chain chain; //TODO: take DPI into account AddSquare(chain, controller.GetScene(), side1End_, controller.GetHandleSideLengthS()); if (angleHighlightArea_ == AngleHighlightArea_Side1End) polylineLayer->AddChain(chain, true, highlightColor); else polylineLayer->AddChain(chain, true, color); } { PolylineSceneLayer::Chain chain; //TODO: take DPI into account AddSquare(chain, controller.GetScene(), side2End_, controller.GetHandleSideLengthS()); if (angleHighlightArea_ == AngleHighlightArea_Side2End) polylineLayer->AddChain(chain, true, highlightColor); else polylineLayer->AddChain(chain, true, color); } } // Create the arc { PolylineSceneLayer::Chain chain; AddShortestArc(chain, side1End_, center_, side2End_, controller.GetAngleToolArcRadiusS()); if (angleHighlightArea_ == AngleHighlightArea_Center) polylineLayer->AddChain(chain, false, highlightColor); else polylineLayer->AddChain(chain, false, color); } } } { // Set the text layer double p1cAngle = atan2( side1End_.GetY() - center_.GetY(), side1End_.GetX() - center_.GetX()); double p2cAngle = atan2( side2End_.GetY() - center_.GetY(), side2End_.GetX() - center_.GetX()); double delta = NormalizeAngle(p2cAngle - p1cAngle); double theta = p1cAngle + delta / 2; double ox = controller.GetAngleTopTextLabelDistanceS() * cos(theta); double oy = controller.GetAngleTopTextLabelDistanceS() * sin(theta); double pointX = center_.GetX() + ox; double pointY = center_.GetY() + oy; char buf[64]; double angleDeg = std::abs(RadiansToDegrees(delta)); // http://www.ltg.ed.ac.uk/~richard/utf-8.cgi?input=00B0&mode=hex sprintf(buf, "%0.02f\xc2\xb0", angleDeg); #if ORTHANC_STONE_ENABLE_OUTLINED_TEXT == 1 SetTextLayerOutlineProperties( scene, layerHolder_, buf, ScenePoint2D(pointX, pointY), 0); #else SetTextLayerProperties( scene, layerHolder_, buf, ScenePoint2D(pointX, pointY) , 0); #endif #if 0 // TODO:make it togglable bool enableInfoDisplay = true; if (enableInfoDisplay) { TrackerSample_SetInfoDisplayMessage("center_.GetX()", boost::lexical_cast<std::string>(center_.GetX())); TrackerSample_SetInfoDisplayMessage("center_.GetY()", boost::lexical_cast<std::string>(center_.GetY())); TrackerSample_SetInfoDisplayMessage("side1End_.GetX()", boost::lexical_cast<std::string>(side1End_.GetX())); TrackerSample_SetInfoDisplayMessage("side1End_.GetY()", boost::lexical_cast<std::string>(side1End_.GetY())); TrackerSample_SetInfoDisplayMessage("side2End_.GetX()", boost::lexical_cast<std::string>(side2End_.GetX())); TrackerSample_SetInfoDisplayMessage("side2End_.GetY()", boost::lexical_cast<std::string>(side2End_.GetY())); TrackerSample_SetInfoDisplayMessage("p1cAngle (deg)", boost::lexical_cast<std::string>(RadiansToDegrees(p1cAngle))); TrackerSample_SetInfoDisplayMessage("delta (deg)", boost::lexical_cast<std::string>(RadiansToDegrees(delta))); TrackerSample_SetInfoDisplayMessage("theta (deg)", boost::lexical_cast<std::string>(RadiansToDegrees(theta))); TrackerSample_SetInfoDisplayMessage("p2cAngle (deg)", boost::lexical_cast<std::string>(RadiansToDegrees(p2cAngle))); TrackerSample_SetInfoDisplayMessage("ox (scene)", boost::lexical_cast<std::string>(ox)); TrackerSample_SetInfoDisplayMessage("offsetY (scene)", boost::lexical_cast<std::string>(oy)); TrackerSample_SetInfoDisplayMessage("pointX", boost::lexical_cast<std::string>(pointX)); TrackerSample_SetInfoDisplayMessage("pointY", boost::lexical_cast<std::string>(pointY)); TrackerSample_SetInfoDisplayMessage("angleDeg", boost::lexical_cast<std::string>(angleDeg)); } #endif } } else { RemoveFromScene(); } lock->Invalidate(); } } }