Mercurial > hg > orthanc-stone
view Framework/Radiography/RadiographyLayer.h @ 971:bc7b249dfbd0 toa2019082902
Added EMSCRIPTEN_FETCH_REPLACE flag to requests to prevent stale cache results
author | Benjamin Golinvaux <bgo@osimis.io> |
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date | Thu, 29 Aug 2019 13:11:49 +0200 |
parents | 580dd82e13f5 |
children | b537002f83a9 35e798b16b65 |
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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 "../Toolbox/AffineTransform2D.h" #include "../Toolbox/Extent2D.h" #include "../Wrappers/CairoContext.h" #include "../Messages/IMessage.h" #include "../Messages/IObservable.h" namespace OrthancStone { class RadiographyScene; enum RadiographyControlPointType { RadiographyControlPointType_TopLeftCorner = 0, RadiographyControlPointType_TopRightCorner = 1, RadiographyControlPointType_BottomRightCorner = 2, RadiographyControlPointType_BottomLeftCorner = 3 }; enum RadiographyPhotometricDisplayMode { RadiographyPhotometricDisplayMode_Default, RadiographyPhotometricDisplayMode_Monochrome1, RadiographyPhotometricDisplayMode_Monochrome2 }; struct ControlPoint { double x; double y; size_t index; ControlPoint(double x, double y, size_t index) : x(x), y(y), index(index) {} ControlPoint() : x(0), y(0), index(std::numeric_limits<size_t>::max()) {} }; class RadiographyLayer : public IObservable { friend class RadiographyScene; public: ORTHANC_STONE_DEFINE_ORIGIN_MESSAGE(__FILE__, __LINE__, LayerEditedMessage, RadiographyLayer); class Geometry { bool hasCrop_; unsigned int cropX_; unsigned int cropY_; unsigned int cropWidth_; unsigned int cropHeight_; bool flipVertical_; bool flipHorizontal_; double panX_; double panY_; double angle_; bool resizeable_; double pixelSpacingX_; double pixelSpacingY_; public: Geometry(); void ResetCrop() { hasCrop_ = false; } void SetCrop(unsigned int x, unsigned int y, unsigned int width, unsigned int height) { hasCrop_ = true; cropX_ = x; cropY_ = y; cropWidth_ = width; cropHeight_ = height; } bool HasCrop() const { return hasCrop_; } void GetCrop(unsigned int& x, unsigned int& y, unsigned int& width, unsigned int& height) const; void SetAngle(double angle) { angle_ = angle; } double GetAngle() const { return angle_; } void SetPan(double x, double y) { panX_ = x; panY_ = y; } double GetPanX() const { return panX_; } double GetPanY() const { return panY_; } bool IsResizeable() const { return resizeable_; } void SetResizeable(bool resizeable) { resizeable_ = resizeable; } void SetPixelSpacing(double x, double y) { pixelSpacingX_ = x; pixelSpacingY_ = y; } double GetPixelSpacingX() const { return pixelSpacingX_; } double GetPixelSpacingY() const { return pixelSpacingY_; } void SetFlipVertical(bool flip) // mirrors image around an horizontal axis (note: flip is applied before the rotation !) { flipVertical_ = flip; } void SetFlipHorizontal(bool flip) // mirrors image around a vertical axis (note: flip is applied before the rotation !) { flipHorizontal_ = flip; } bool GetFlipVertical() const { return flipVertical_; } bool GetFlipHorizontal() const { return flipHorizontal_; } double GetScalingX() const { return (flipHorizontal_ ? - pixelSpacingX_: pixelSpacingX_); } double GetScalingY() const { return (flipVertical_ ? - pixelSpacingY_: pixelSpacingY_); } }; private: size_t index_; bool hasSize_; unsigned int width_; unsigned int height_; AffineTransform2D transform_; AffineTransform2D transformInverse_; Geometry geometry_; RadiographyPhotometricDisplayMode prefferedPhotometricDisplayMode_; const RadiographyScene& scene_; protected: virtual const AffineTransform2D& GetTransform() const { return transform_; } virtual const AffineTransform2D& GetTransformInverse() const { return transformInverse_; } void SetPreferredPhotomotricDisplayMode(RadiographyPhotometricDisplayMode prefferedPhotometricDisplayMode); private: void UpdateTransform(); void AddToExtent(Extent2D& extent, double x, double y) const; void SetIndex(size_t index) { index_ = index; } bool Contains(double x, double y) const; void DrawBorders(CairoContext& context, double zoom); public: RadiographyLayer(MessageBroker& broker, const RadiographyScene& scene); virtual ~RadiographyLayer() { } size_t GetIndex() const { return index_; } const RadiographyScene& GetScene() const { return scene_; } const Geometry& GetGeometry() const { return geometry_; } void SetGeometry(const Geometry& geometry); void ResetCrop(); void SetCrop(unsigned int x, unsigned int y, unsigned int width, unsigned int height); void GetCrop(unsigned int& x, unsigned int& y, unsigned int& width, unsigned int& height) const; void SetAngle(double angle); void SetPan(double x, double y); void SetFlipVertical(bool flip); // mirrors image around an horizontal axis (note: flip is applied before the rotation !) void SetFlipHorizontal(bool flip); // mirrors image around a vertical axis (note: flip is applied before the rotation !) void SetResizeable(bool resizeable) { geometry_.SetResizeable(resizeable); } void SetSize(unsigned int width, unsigned int height); bool HasSize() const { return hasSize_; } unsigned int GetWidth() const { return width_; } unsigned int GetHeight() const { return height_; } Extent2D GetExtent() const; virtual bool GetPixel(unsigned int& imageX, unsigned int& imageY, double sceneX, double sceneY) const; void SetPixelSpacing(double x, double y); void GetCenter(double& centerX, double& centerY) const; virtual void GetControlPoint(ControlPoint& cpScene /* out in scene coordinates */, size_t index) const; virtual size_t GetControlPointCount() const; bool LookupControlPoint(ControlPoint& cpScene /* out */, double x, double y, double zoom, double viewportDistance) const; virtual bool GetDefaultWindowing(float& center, float& width) const = 0; RadiographyPhotometricDisplayMode GetPreferredPhotomotricDisplayMode() const { return prefferedPhotometricDisplayMode_; } virtual void Render(Orthanc::ImageAccessor& buffer, const AffineTransform2D& viewTransform, ImageInterpolation interpolation) const = 0; virtual bool GetRange(float& minValue, float& maxValue) const = 0; friend class RadiographyMaskLayer; // because it needs to GetTransform on the dicomLayer it relates to virtual size_t GetApproximateMemoryUsage() const // this is used to limit the number of scenes loaded in RAM when resources are limited (we actually only count the size used by the images, not the C structs) { return 0; } }; }