Mercurial > hg > orthanc-stone
view Applications/Samples/SingleFrameEditorApplication.h @ 391:021480604c92
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 09 Nov 2018 17:41:46 +0100 |
parents | d20d75f20c5d |
children | d87fe075d31b |
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/** * Stone of Orthanc * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2018 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 "SampleApplicationBase.h" #include "../../Framework/Toolbox/ImageGeometry.h" #include "../../Framework/Toolbox/OrthancApiClient.h" #include "../../Framework/Toolbox/DicomFrameConverter.h" #include <Core/Images/FontRegistry.h> #include <Core/Images/Image.h> #include <Core/Images/ImageProcessing.h> #include <Core/Images/PamReader.h> #include <Core/Images/PamWriter.h> #include <Core/Images/PngWriter.h> #include <Core/Logging.h> #include <Core/Toolbox.h> #include <Plugins/Samples/Common/DicomDatasetReader.h> #include <Plugins/Samples/Common/FullOrthancDataset.h> #define EXPORT_USING_PAM 1 #include <boost/math/constants/constants.hpp> #include <boost/math/special_functions/round.hpp> namespace OrthancStone { static Matrix CreateOffsetMatrix(double dx, double dy) { Matrix m = LinearAlgebra::IdentityMatrix(3); m(0, 2) = dx; m(1, 2) = dy; return m; } static Matrix CreateScalingMatrix(double sx, double sy) { Matrix m = LinearAlgebra::IdentityMatrix(3); m(0, 0) = sx; m(1, 1) = sy; return m; } static Matrix CreateRotationMatrix(double angle) { Matrix m; const double v[] = { cos(angle), -sin(angle), 0, sin(angle), cos(angle), 0, 0, 0, 1 }; LinearAlgebra::FillMatrix(m, 3, 3, v); return m; } class BitmapStack : public IObserver, public IObservable { public: typedef OriginMessage<MessageType_Widget_GeometryChanged, BitmapStack> GeometryChangedMessage; typedef OriginMessage<MessageType_Widget_ContentChanged, BitmapStack> ContentChangedMessage; enum Corner { Corner_TopLeft, Corner_TopRight, Corner_BottomLeft, Corner_BottomRight }; class Bitmap : public boost::noncopyable { private: size_t index_; bool hasSize_; unsigned int width_; unsigned int height_; bool hasCrop_; unsigned int cropX_; unsigned int cropY_; unsigned int cropWidth_; unsigned int cropHeight_; Matrix transform_; Matrix transformInverse_; double pixelSpacingX_; double pixelSpacingY_; double panX_; double panY_; double angle_; bool resizeable_; protected: const Matrix& GetTransform() const { return transform_; } private: static void ApplyTransform(double& x /* inout */, double& y /* inout */, const Matrix& transform) { Vector p; LinearAlgebra::AssignVector(p, x, y, 1); Vector q = LinearAlgebra::Product(transform, p); if (!LinearAlgebra::IsNear(q[2], 1.0)) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } else { x = q[0]; y = q[1]; } } void UpdateTransform() { transform_ = CreateScalingMatrix(pixelSpacingX_, pixelSpacingY_); double centerX, centerY; GetCenter(centerX, centerY); transform_ = LinearAlgebra::Product( CreateOffsetMatrix(panX_ + centerX, panY_ + centerY), CreateRotationMatrix(angle_), CreateOffsetMatrix(-centerX, -centerY), transform_); LinearAlgebra::InvertMatrix(transformInverse_, transform_); } void AddToExtent(Extent2D& extent, double x, double y) const { ApplyTransform(x, y, transform_); extent.AddPoint(x, y); } void GetCornerInternal(double& x, double& y, Corner corner, unsigned int cropX, unsigned int cropY, unsigned int cropWidth, unsigned int cropHeight) const { double dx = static_cast<double>(cropX); double dy = static_cast<double>(cropY); double dwidth = static_cast<double>(cropWidth); double dheight = static_cast<double>(cropHeight); switch (corner) { case Corner_TopLeft: x = dx; y = dy; break; case Corner_TopRight: x = dx + dwidth; y = dy; break; case Corner_BottomLeft: x = dx; y = dy + dheight; break; case Corner_BottomRight: x = dx + dwidth; y = dy + dheight; break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } ApplyTransform(x, y, transform_); } public: Bitmap() : index_(0), hasSize_(false), width_(0), height_(0), hasCrop_(false), pixelSpacingX_(1), pixelSpacingY_(1), panX_(0), panY_(0), angle_(0), resizeable_(false) { UpdateTransform(); } virtual ~Bitmap() { } void SetIndex(size_t index) { index_ = index; } size_t GetIndex() const { return index_; } void ResetCrop() { hasCrop_ = false; } void SetCrop(unsigned int x, unsigned int y, unsigned int width, unsigned int height) { if (!hasSize_) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } if (x + width > width_ || y + height > height_) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } hasCrop_ = true; cropX_ = x; cropY_ = y; cropWidth_ = width; cropHeight_ = height; UpdateTransform(); } void GetCrop(unsigned int& x, unsigned int& y, unsigned int& width, unsigned int& height) const { if (hasCrop_) { x = cropX_; y = cropY_; width = cropWidth_; height = cropHeight_; } else { x = 0; y = 0; width = width_; height = height_; } } void SetAngle(double angle) { angle_ = angle; UpdateTransform(); } double GetAngle() const { return angle_; } void SetSize(unsigned int width, unsigned int height) { if (hasSize_ && (width != width_ || height != height_)) { throw Orthanc::OrthancException(Orthanc::ErrorCode_IncompatibleImageSize); } hasSize_ = true; width_ = width; height_ = height; UpdateTransform(); } unsigned int GetWidth() const { return width_; } unsigned int GetHeight() const { return height_; } void CheckSize(unsigned int width, unsigned int height) { if (hasSize_ && (width != width_ || height != height_)) { throw Orthanc::OrthancException(Orthanc::ErrorCode_IncompatibleImageSize); } } Extent2D GetExtent() const { Extent2D extent; unsigned int x, y, width, height; GetCrop(x, y, width, height); double dx = static_cast<double>(x); double dy = static_cast<double>(y); double dwidth = static_cast<double>(width); double dheight = static_cast<double>(height); AddToExtent(extent, dx, dy); AddToExtent(extent, dx + dwidth, dy); AddToExtent(extent, dx, dy + dheight); AddToExtent(extent, dx + dwidth, dy + dheight); return extent; } bool Contains(double x, double y) const { ApplyTransform(x, y, transformInverse_); unsigned int cropX, cropY, cropWidth, cropHeight; GetCrop(cropX, cropY, cropWidth, cropHeight); return (x >= cropX && x <= cropX + cropWidth && y >= cropY && y <= cropY + cropHeight); } bool GetPixel(unsigned int& imageX, unsigned int& imageY, double sceneX, double sceneY) const { if (width_ == 0 || height_ == 0) { return false; } else { ApplyTransform(sceneX, sceneY, transformInverse_); int x = static_cast<int>(std::floor(sceneX)); int y = static_cast<int>(std::floor(sceneY)); if (x < 0) { imageX = 0; } else if (x >= static_cast<int>(width_)) { imageX = width_; } else { imageX = static_cast<unsigned int>(x); } if (y < 0) { imageY = 0; } else if (y >= static_cast<int>(height_)) { imageY = height_; } else { imageY = static_cast<unsigned int>(y); } return true; } } void SetPan(double x, double y) { panX_ = x; panY_ = y; UpdateTransform(); } void SetPixelSpacing(double x, double y) { pixelSpacingX_ = x; pixelSpacingY_ = y; UpdateTransform(); } double GetPixelSpacingX() const { return pixelSpacingX_; } double GetPixelSpacingY() const { return pixelSpacingY_; } double GetPanX() const { return panX_; } double GetPanY() const { return panY_; } void GetCenter(double& centerX, double& centerY) const { centerX = static_cast<double>(width_) / 2.0; centerY = static_cast<double>(height_) / 2.0; ApplyTransform(centerX, centerY, transform_); } void DrawBorders(CairoContext& context, double zoom) { unsigned int cx, cy, width, height; GetCrop(cx, cy, width, height); double dx = static_cast<double>(cx); double dy = static_cast<double>(cy); double dwidth = static_cast<double>(width); double dheight = static_cast<double>(height); cairo_t* cr = context.GetObject(); cairo_set_line_width(cr, 2.0 / zoom); double x, y; x = dx; y = dy; ApplyTransform(x, y, transform_); cairo_move_to(cr, x, y); x = dx + dwidth; y = dy; ApplyTransform(x, y, transform_); cairo_line_to(cr, x, y); x = dx + dwidth; y = dy + dheight; ApplyTransform(x, y, transform_); cairo_line_to(cr, x, y); x = dx; y = dy + dheight; ApplyTransform(x, y, transform_); cairo_line_to(cr, x, y); x = dx; y = dy; ApplyTransform(x, y, transform_); cairo_line_to(cr, x, y); cairo_stroke(cr); } static double Square(double x) { return x * x; } void GetCorner(double& x /* out */, double& y /* out */, Corner corner) const { unsigned int cropX, cropY, cropWidth, cropHeight; GetCrop(cropX, cropY, cropWidth, cropHeight); GetCornerInternal(x, y, corner, cropX, cropY, cropWidth, cropHeight); } bool LookupCorner(Corner& corner /* out */, double x, double y, double zoom, double viewportDistance) const { static const Corner CORNERS[] = { Corner_TopLeft, Corner_TopRight, Corner_BottomLeft, Corner_BottomRight }; unsigned int cropX, cropY, cropWidth, cropHeight; GetCrop(cropX, cropY, cropWidth, cropHeight); double threshold = Square(viewportDistance / zoom); for (size_t i = 0; i < 4; i++) { double cx, cy; GetCornerInternal(cx, cy, CORNERS[i], cropX, cropY, cropWidth, cropHeight); double d = Square(cx - x) + Square(cy - y); if (d <= threshold) { corner = CORNERS[i]; return true; } } return false; } bool IsResizeable() const { return resizeable_; } void SetResizeable(bool resizeable) { resizeable_ = resizeable; } virtual bool GetDefaultWindowing(float& center, float& width) const { return false; } virtual void Render(Orthanc::ImageAccessor& buffer, const Matrix& viewTransform, ImageInterpolation interpolation) const = 0; virtual bool GetRange(float& minValue, float& maxValue) const = 0; }; class BitmapAccessor : public boost::noncopyable { private: BitmapStack& stack_; size_t index_; Bitmap* bitmap_; public: BitmapAccessor(BitmapStack& stack, size_t index) : stack_(stack), index_(index) { Bitmaps::iterator bitmap = stack.bitmaps_.find(index); if (bitmap == stack.bitmaps_.end()) { bitmap_ = NULL; } else { assert(bitmap->second != NULL); bitmap_ = bitmap->second; } } BitmapAccessor(BitmapStack& stack, double x, double y) : stack_(stack), index_(0) // Dummy initialization { if (stack.LookupBitmap(index_, x, y)) { Bitmaps::iterator bitmap = stack.bitmaps_.find(index_); if (bitmap == stack.bitmaps_.end()) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } else { assert(bitmap->second != NULL); bitmap_ = bitmap->second; } } else { bitmap_ = NULL; } } void Invalidate() { bitmap_ = NULL; } bool IsValid() const { return bitmap_ != NULL; } BitmapStack& GetStack() const { if (IsValid()) { return stack_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } size_t GetIndex() const { if (IsValid()) { return index_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } Bitmap& GetBitmap() const { if (IsValid()) { return *bitmap_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } }; class AlphaBitmap : public Bitmap { private: const BitmapStack& stack_; std::auto_ptr<Orthanc::ImageAccessor> alpha_; // Grayscale8 bool useWindowing_; float foreground_; public: AlphaBitmap(const BitmapStack& stack) : stack_(stack), useWindowing_(true), foreground_(0) { } void SetForegroundValue(float foreground) { useWindowing_ = false; foreground_ = foreground; } void SetAlpha(Orthanc::ImageAccessor* image) { std::auto_ptr<Orthanc::ImageAccessor> raii(image); if (image == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } if (image->GetFormat() != Orthanc::PixelFormat_Grayscale8) { throw Orthanc::OrthancException(Orthanc::ErrorCode_IncompatibleImageFormat); } SetSize(image->GetWidth(), image->GetHeight()); alpha_ = raii; } void LoadText(const Orthanc::Font& font, const std::string& utf8) { SetAlpha(font.RenderAlpha(utf8)); } virtual void Render(Orthanc::ImageAccessor& buffer, const Matrix& viewTransform, ImageInterpolation interpolation) const { if (alpha_.get() == NULL) { return; } if (buffer.GetFormat() != Orthanc::PixelFormat_Float32) { throw Orthanc::OrthancException(Orthanc::ErrorCode_IncompatibleImageFormat); } unsigned int cropX, cropY, cropWidth, cropHeight; GetCrop(cropX, cropY, cropWidth, cropHeight); Matrix m = LinearAlgebra::Product(viewTransform, GetTransform(), CreateOffsetMatrix(cropX, cropY)); Orthanc::ImageAccessor cropped; alpha_->GetRegion(cropped, cropX, cropY, cropWidth, cropHeight); Orthanc::Image tmp(Orthanc::PixelFormat_Grayscale8, buffer.GetWidth(), buffer.GetHeight(), false); ApplyProjectiveTransform(tmp, cropped, m, interpolation, true /* clear */); // Blit const unsigned int width = buffer.GetWidth(); const unsigned int height = buffer.GetHeight(); float value = foreground_; if (useWindowing_) { float center, width; if (stack_.GetWindowing(center, width)) { value = center + width / 2.0f; } } for (unsigned int y = 0; y < height; y++) { float *q = reinterpret_cast<float*>(buffer.GetRow(y)); const uint8_t *p = reinterpret_cast<uint8_t*>(tmp.GetRow(y)); for (unsigned int x = 0; x < width; x++, p++, q++) { float a = static_cast<float>(*p) / 255.0f; *q = (a * value + (1.0f - a) * (*q)); } } } virtual bool GetRange(float& minValue, float& maxValue) const { if (useWindowing_) { return false; } else { minValue = 0; maxValue = 0; if (foreground_ < 0) { minValue = foreground_; } if (foreground_ > 0) { maxValue = foreground_; } return true; } } }; private: class DicomBitmap : public Bitmap { private: std::auto_ptr<Orthanc::ImageAccessor> source_; // Content of PixelData std::auto_ptr<DicomFrameConverter> converter_; std::auto_ptr<Orthanc::ImageAccessor> converted_; // Float32 static OrthancPlugins::DicomTag ConvertTag(const Orthanc::DicomTag& tag) { return OrthancPlugins::DicomTag(tag.GetGroup(), tag.GetElement()); } void ApplyConverter() { if (source_.get() != NULL && converter_.get() != NULL) { converted_.reset(converter_->ConvertFrame(*source_)); } } public: void SetDicomTags(const OrthancPlugins::FullOrthancDataset& dataset) { converter_.reset(new DicomFrameConverter); converter_->ReadParameters(dataset); ApplyConverter(); std::string tmp; Vector pixelSpacing; if (dataset.GetStringValue(tmp, ConvertTag(Orthanc::DICOM_TAG_PIXEL_SPACING)) && LinearAlgebra::ParseVector(pixelSpacing, tmp) && pixelSpacing.size() == 2) { SetPixelSpacing(pixelSpacing[0], pixelSpacing[1]); } //SetPan(-0.5 * GetPixelSpacingX(), -0.5 * GetPixelSpacingY()); OrthancPlugins::DicomDatasetReader reader(dataset); unsigned int width, height; if (!reader.GetUnsignedIntegerValue(width, ConvertTag(Orthanc::DICOM_TAG_COLUMNS)) || !reader.GetUnsignedIntegerValue(height, ConvertTag(Orthanc::DICOM_TAG_ROWS))) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadFileFormat); } else { SetSize(width, height); } } void SetSourceImage(Orthanc::ImageAccessor* image) // Takes ownership { std::auto_ptr<Orthanc::ImageAccessor> raii(image); if (image == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } SetSize(image->GetWidth(), image->GetHeight()); source_ = raii; ApplyConverter(); } virtual void Render(Orthanc::ImageAccessor& buffer, const Matrix& viewTransform, ImageInterpolation interpolation) const { if (converted_.get() != NULL) { if (converted_->GetFormat() != Orthanc::PixelFormat_Float32) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } unsigned int cropX, cropY, cropWidth, cropHeight; GetCrop(cropX, cropY, cropWidth, cropHeight); Matrix m = LinearAlgebra::Product(viewTransform, GetTransform(), CreateOffsetMatrix(cropX, cropY)); Orthanc::ImageAccessor cropped; converted_->GetRegion(cropped, cropX, cropY, cropWidth, cropHeight); ApplyProjectiveTransform(buffer, cropped, m, interpolation, false); } } virtual bool GetDefaultWindowing(float& center, float& width) const { if (converter_.get() != NULL && converter_->HasDefaultWindow()) { center = static_cast<float>(converter_->GetDefaultWindowCenter()); width = static_cast<float>(converter_->GetDefaultWindowWidth()); return true; } else { return false; } } virtual bool GetRange(float& minValue, float& maxValue) const { if (converted_.get() != NULL) { if (converted_->GetFormat() != Orthanc::PixelFormat_Float32) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } Orthanc::ImageProcessing::GetMinMaxFloatValue(minValue, maxValue, *converted_); return true; } else { return false; } } }; typedef std::map<size_t, Bitmap*> Bitmaps; OrthancApiClient& orthanc_; size_t countBitmaps_; bool hasWindowing_; float windowingCenter_; float windowingWidth_; Bitmaps bitmaps_; public: BitmapStack(MessageBroker& broker, OrthancApiClient& orthanc) : IObserver(broker), IObservable(broker), orthanc_(orthanc), countBitmaps_(0), hasWindowing_(false), windowingCenter_(0), // Dummy initialization windowingWidth_(0) // Dummy initialization { } virtual ~BitmapStack() { for (Bitmaps::iterator it = bitmaps_.begin(); it != bitmaps_.end(); it++) { assert(it->second != NULL); delete it->second; } } bool GetWindowing(float& center, float& width) const { if (hasWindowing_) { center = windowingCenter_; width = windowingWidth_; return true; } else { return false; } } void GetWindowingWithDefault(float& center, float& width) const { if (!GetWindowing(center, width)) { center = 128; width = 256; } } void SetWindowing(float center, float width) { hasWindowing_ = true; windowingCenter_ = center; windowingWidth_ = width; } Bitmap& RegisterBitmap(Bitmap* bitmap) { if (bitmap == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } std::auto_ptr<Bitmap> raii(bitmap); size_t index = countBitmaps_++; raii->SetIndex(index); bitmaps_[index] = raii.release(); EmitMessage(GeometryChangedMessage(*this)); EmitMessage(ContentChangedMessage(*this)); return *bitmap; } Bitmap& LoadText(const Orthanc::Font& font, const std::string& utf8) { std::auto_ptr<AlphaBitmap> alpha(new AlphaBitmap(*this)); alpha->LoadText(font, utf8); return RegisterBitmap(alpha.release()); } Bitmap& LoadTestBlock(unsigned int width, unsigned int height) { std::auto_ptr<Orthanc::Image> block(new Orthanc::Image(Orthanc::PixelFormat_Grayscale8, width, height, false)); for (unsigned int padding = 0; (width > 2 * padding) && (height > 2 * padding); padding++) { uint8_t color; if (255 > 10 * padding) { color = 255 - 10 * padding; } else { color = 0; } Orthanc::ImageAccessor region; block->GetRegion(region, padding, padding, width - 2 * padding, height - 2 * padding); Orthanc::ImageProcessing::Set(region, color); } std::auto_ptr<AlphaBitmap> alpha(new AlphaBitmap(*this)); alpha->SetAlpha(block.release()); return RegisterBitmap(alpha.release()); } Bitmap& LoadFrame(const std::string& instance, unsigned int frame, bool httpCompression) { Bitmap& bitmap = RegisterBitmap(new DicomBitmap); { IWebService::Headers headers; std::string uri = "/instances/" + instance + "/tags"; orthanc_.GetBinaryAsync(uri, headers, new Callable<BitmapStack, OrthancApiClient::BinaryResponseReadyMessage> (*this, &BitmapStack::OnTagsReceived), NULL, new Orthanc::SingleValueObject<size_t>(bitmap.GetIndex())); } { IWebService::Headers headers; headers["Accept"] = "image/x-portable-arbitrarymap"; if (httpCompression) { headers["Accept-Encoding"] = "gzip"; } std::string uri = "/instances/" + instance + "/frames/" + boost::lexical_cast<std::string>(frame) + "/image-uint16"; orthanc_.GetBinaryAsync(uri, headers, new Callable<BitmapStack, OrthancApiClient::BinaryResponseReadyMessage> (*this, &BitmapStack::OnFrameReceived), NULL, new Orthanc::SingleValueObject<size_t>(bitmap.GetIndex())); } return bitmap; } void OnTagsReceived(const OrthancApiClient::BinaryResponseReadyMessage& message) { size_t index = dynamic_cast<const Orthanc::SingleValueObject<size_t>&>(message.GetPayload()).GetValue(); LOG(INFO) << "JSON received: " << message.GetUri().c_str() << " (" << message.GetAnswerSize() << " bytes) for bitmap " << index; Bitmaps::iterator bitmap = bitmaps_.find(index); if (bitmap != bitmaps_.end()) { assert(bitmap->second != NULL); OrthancPlugins::FullOrthancDataset dicom(message.GetAnswer(), message.GetAnswerSize()); dynamic_cast<DicomBitmap*>(bitmap->second)->SetDicomTags(dicom); float c, w; if (!hasWindowing_ && bitmap->second->GetDefaultWindowing(c, w)) { hasWindowing_ = true; windowingCenter_ = c; windowingWidth_ = w; } EmitMessage(GeometryChangedMessage(*this)); } } void OnFrameReceived(const OrthancApiClient::BinaryResponseReadyMessage& message) { size_t index = dynamic_cast<const Orthanc::SingleValueObject<size_t>&>(message.GetPayload()).GetValue(); LOG(INFO) << "DICOM frame received: " << message.GetUri().c_str() << " (" << message.GetAnswerSize() << " bytes) for bitmap " << index; Bitmaps::iterator bitmap = bitmaps_.find(index); if (bitmap != bitmaps_.end()) { assert(bitmap->second != NULL); std::string content; if (message.GetAnswerSize() > 0) { content.assign(reinterpret_cast<const char*>(message.GetAnswer()), message.GetAnswerSize()); } std::auto_ptr<Orthanc::PamReader> reader(new Orthanc::PamReader); reader->ReadFromMemory(content); dynamic_cast<DicomBitmap*>(bitmap->second)->SetSourceImage(reader.release()); EmitMessage(ContentChangedMessage(*this)); } } Extent2D GetSceneExtent() const { Extent2D extent; for (Bitmaps::const_iterator it = bitmaps_.begin(); it != bitmaps_.end(); ++it) { assert(it->second != NULL); extent.Union(it->second->GetExtent()); } return extent; } void Render(Orthanc::ImageAccessor& buffer, const Matrix& viewTransform, ImageInterpolation interpolation) const { Orthanc::ImageProcessing::Set(buffer, 0); // Render layers in the background-to-foreground order for (size_t index = 0; index < countBitmaps_; index++) { Bitmaps::const_iterator it = bitmaps_.find(index); if (it != bitmaps_.end()) { assert(it->second != NULL); it->second->Render(buffer, viewTransform, interpolation); } } } bool LookupBitmap(size_t& index /* out */, double x, double y) const { // Render layers in the foreground-to-background order for (size_t i = countBitmaps_; i > 0; i--) { index = i - 1; Bitmaps::const_iterator it = bitmaps_.find(index); if (it != bitmaps_.end()) { assert(it->second != NULL); if (it->second->Contains(x, y)) { return true; } } } return false; } void DrawBorder(CairoContext& context, unsigned int bitmap, double zoom) { Bitmaps::const_iterator found = bitmaps_.find(bitmap); if (found != bitmaps_.end()) { context.SetSourceColor(255, 0, 0); found->second->DrawBorders(context, zoom); } } void GetRange(float& minValue, float& maxValue) const { bool first = true; for (Bitmaps::const_iterator it = bitmaps_.begin(); it != bitmaps_.end(); it++) { assert(it->second != NULL); float a, b; if (it->second->GetRange(a, b)) { if (first) { minValue = a; maxValue = b; first = false; } else { minValue = std::min(a, minValue); maxValue = std::max(b, maxValue); } } } if (first) { minValue = 0; maxValue = 0; } } void Export(const Orthanc::DicomMap& dicom, double pixelSpacingX, double pixelSpacingY, bool invert, ImageInterpolation interpolation) { if (pixelSpacingX <= 0 || pixelSpacingY <= 0) { throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } LOG(WARNING) << "Exporting DICOM"; Extent2D extent = GetSceneExtent(); int w = std::ceil(extent.GetWidth() / pixelSpacingX); int h = std::ceil(extent.GetHeight() / pixelSpacingY); if (w < 0 || h < 0) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } Orthanc::Image layers(Orthanc::PixelFormat_Float32, static_cast<unsigned int>(w), static_cast<unsigned int>(h), false); Matrix view = LinearAlgebra::Product( CreateScalingMatrix(1.0 / pixelSpacingX, 1.0 / pixelSpacingY), CreateOffsetMatrix(-extent.GetX1(), -extent.GetY1())); Render(layers, view, interpolation); Orthanc::Image rendered(Orthanc::PixelFormat_Grayscale16, layers.GetWidth(), layers.GetHeight(), false); Orthanc::ImageProcessing::Convert(rendered, layers); std::string base64; { std::string content; #if EXPORT_USING_PAM == 1 { Orthanc::PamWriter writer; writer.WriteToMemory(content, rendered); } #else { Orthanc::PngWriter writer; writer.WriteToMemory(content, rendered); } #endif Orthanc::Toolbox::EncodeBase64(base64, content); } std::set<Orthanc::DicomTag> tags; dicom.GetTags(tags); Json::Value json = Json::objectValue; json["Tags"] = Json::objectValue; for (std::set<Orthanc::DicomTag>::const_iterator tag = tags.begin(); tag != tags.end(); ++tag) { const Orthanc::DicomValue& value = dicom.GetValue(*tag); if (!value.IsNull() && !value.IsBinary()) { json["Tags"][tag->Format()] = value.GetContent(); } } json["Tags"][Orthanc::DICOM_TAG_PHOTOMETRIC_INTERPRETATION.Format()] = (invert ? "MONOCHROME1" : "MONOCHROME2"); // WARNING: The order of PixelSpacing is Y/X char buf[32]; sprintf(buf, "%0.8f\\%0.8f", pixelSpacingY, pixelSpacingX); json["Tags"][Orthanc::DICOM_TAG_PIXEL_SPACING.Format()] = buf; float center, width; if (GetWindowing(center, width)) { json["Tags"][Orthanc::DICOM_TAG_WINDOW_CENTER.Format()] = boost::lexical_cast<std::string>(boost::math::iround(center)); json["Tags"][Orthanc::DICOM_TAG_WINDOW_WIDTH.Format()] = boost::lexical_cast<std::string>(boost::math::iround(width)); } #if EXPORT_USING_PAM == 1 json["Content"] = "data:" + std::string(Orthanc::MIME_PAM) + ";base64," + base64; #else json["Content"] = "data:" + std::string(Orthanc::MIME_PNG) + ";base64," + base64; #endif orthanc_.PostJsonAsyncExpectJson( "/tools/create-dicom", json, new Callable<BitmapStack, OrthancApiClient::JsonResponseReadyMessage> (*this, &BitmapStack::OnDicomExported), NULL, NULL); } void OnDicomExported(const OrthancApiClient::JsonResponseReadyMessage& message) { LOG(WARNING) << "DICOM export was successful:" << message.GetJson().toStyledString(); } }; class UndoRedoStack : public boost::noncopyable { public: class ICommand : public boost::noncopyable { public: virtual ~ICommand() { } virtual void Undo() const = 0; virtual void Redo() const = 0; }; private: typedef std::list<ICommand*> Stack; Stack stack_; Stack::iterator current_; void Clear(Stack::iterator from) { for (Stack::iterator it = from; it != stack_.end(); ++it) { assert(*it != NULL); delete *it; } stack_.erase(from, stack_.end()); } public: UndoRedoStack() : current_(stack_.end()) { } ~UndoRedoStack() { Clear(stack_.begin()); } void Add(ICommand* command) { if (command == NULL) { throw Orthanc::OrthancException(Orthanc::ErrorCode_NullPointer); } Clear(current_); stack_.push_back(command); current_ = stack_.end(); } void Undo() { if (current_ != stack_.begin()) { --current_; assert(*current_ != NULL); (*current_)->Undo(); } } void Redo() { if (current_ != stack_.end()) { assert(*current_ != NULL); (*current_)->Redo(); ++current_; } } }; class BitmapCommandBase : public UndoRedoStack::ICommand { private: BitmapStack& stack_; size_t bitmap_; protected: virtual void UndoInternal(BitmapStack::Bitmap& bitmap) const = 0; virtual void RedoInternal(BitmapStack::Bitmap& bitmap) const = 0; public: BitmapCommandBase(BitmapStack& stack, size_t bitmap) : stack_(stack), bitmap_(bitmap) { } BitmapCommandBase(const BitmapStack::BitmapAccessor& accessor) : stack_(accessor.GetStack()), bitmap_(accessor.GetIndex()) { } virtual void Undo() const { BitmapStack::BitmapAccessor accessor(stack_, bitmap_); if (accessor.IsValid()) { UndoInternal(accessor.GetBitmap()); } } virtual void Redo() const { BitmapStack::BitmapAccessor accessor(stack_, bitmap_); if (accessor.IsValid()) { RedoInternal(accessor.GetBitmap()); } } }; class RotateBitmapTracker : public IWorldSceneMouseTracker { private: UndoRedoStack& undoRedoStack_; BitmapStack::BitmapAccessor accessor_; double centerX_; double centerY_; double originalAngle_; double clickAngle_; bool roundAngles_; bool ComputeAngle(double& angle /* out */, double sceneX, double sceneY) const { Vector u; LinearAlgebra::AssignVector(u, sceneX - centerX_, sceneY - centerY_); double nu = boost::numeric::ublas::norm_2(u); if (!LinearAlgebra::IsCloseToZero(nu)) { u /= nu; angle = atan2(u[1], u[0]); return true; } else { return false; } } class UndoRedoCommand : public BitmapCommandBase { private: double sourceAngle_; double targetAngle_; static int ToDegrees(double angle) { return boost::math::iround(angle * 180.0 / boost::math::constants::pi<double>()); } protected: virtual void UndoInternal(BitmapStack::Bitmap& bitmap) const { LOG(INFO) << "Undo - Set angle to " << ToDegrees(sourceAngle_) << " degrees"; bitmap.SetAngle(sourceAngle_); } virtual void RedoInternal(BitmapStack::Bitmap& bitmap) const { LOG(INFO) << "Redo - Set angle to " << ToDegrees(sourceAngle_) << " degrees"; bitmap.SetAngle(targetAngle_); } public: UndoRedoCommand(const RotateBitmapTracker& tracker) : BitmapCommandBase(tracker.accessor_), sourceAngle_(tracker.originalAngle_), targetAngle_(tracker.accessor_.GetBitmap().GetAngle()) { } }; public: RotateBitmapTracker(UndoRedoStack& undoRedoStack, BitmapStack& stack, const ViewportGeometry& view, size_t bitmap, double x, double y, bool roundAngles) : undoRedoStack_(undoRedoStack), accessor_(stack, bitmap), roundAngles_(roundAngles) { if (accessor_.IsValid()) { accessor_.GetBitmap().GetCenter(centerX_, centerY_); originalAngle_ = accessor_.GetBitmap().GetAngle(); double sceneX, sceneY; view.MapDisplayToScene(sceneX, sceneY, x, y); if (!ComputeAngle(clickAngle_, x, y)) { accessor_.Invalidate(); } } } virtual bool HasRender() const { return false; } virtual void Render(CairoContext& context, double zoom) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } virtual void MouseUp() { if (accessor_.IsValid()) { undoRedoStack_.Add(new UndoRedoCommand(*this)); } } virtual void MouseMove(int displayX, int displayY, double sceneX, double sceneY) { static const double ROUND_ANGLE = 15.0 / 180.0 * boost::math::constants::pi<double>(); double angle; if (accessor_.IsValid() && ComputeAngle(angle, sceneX, sceneY)) { angle = angle - clickAngle_ + originalAngle_; if (roundAngles_) { angle = boost::math::round<double>((angle / ROUND_ANGLE) * ROUND_ANGLE); } accessor_.GetBitmap().SetAngle(angle); } } }; class MoveBitmapTracker : public IWorldSceneMouseTracker { private: UndoRedoStack& undoRedoStack_; BitmapStack::BitmapAccessor accessor_; double clickX_; double clickY_; double panX_; double panY_; bool oneAxis_; class UndoRedoCommand : public BitmapCommandBase { private: double sourceX_; double sourceY_; double targetX_; double targetY_; protected: virtual void UndoInternal(BitmapStack::Bitmap& bitmap) const { bitmap.SetPan(sourceX_, sourceY_); } virtual void RedoInternal(BitmapStack::Bitmap& bitmap) const { bitmap.SetPan(targetX_, targetY_); } public: UndoRedoCommand(const MoveBitmapTracker& tracker) : BitmapCommandBase(tracker.accessor_), sourceX_(tracker.panX_), sourceY_(tracker.panY_), targetX_(tracker.accessor_.GetBitmap().GetPanX()), targetY_(tracker.accessor_.GetBitmap().GetPanY()) { } }; public: MoveBitmapTracker(UndoRedoStack& undoRedoStack, BitmapStack& stack, size_t bitmap, double x, double y, bool oneAxis) : undoRedoStack_(undoRedoStack), accessor_(stack, bitmap), clickX_(x), clickY_(y), oneAxis_(oneAxis) { if (accessor_.IsValid()) { panX_ = accessor_.GetBitmap().GetPanX(); panY_ = accessor_.GetBitmap().GetPanY(); } } virtual bool HasRender() const { return false; } virtual void Render(CairoContext& context, double zoom) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } virtual void MouseUp() { if (accessor_.IsValid()) { undoRedoStack_.Add(new UndoRedoCommand(*this)); } } virtual void MouseMove(int displayX, int displayY, double sceneX, double sceneY) { if (accessor_.IsValid()) { double dx = sceneX - clickX_; double dy = sceneY - clickY_; if (oneAxis_) { if (fabs(dx) > fabs(dy)) { accessor_.GetBitmap().SetPan(dx + panX_, panY_); } else { accessor_.GetBitmap().SetPan(panX_, dy + panY_); } } else { accessor_.GetBitmap().SetPan(dx + panX_, dy + panY_); } } } }; class CropBitmapTracker : public IWorldSceneMouseTracker { private: UndoRedoStack& undoRedoStack_; BitmapStack::BitmapAccessor accessor_; BitmapStack::Corner corner_; unsigned int cropX_; unsigned int cropY_; unsigned int cropWidth_; unsigned int cropHeight_; class UndoRedoCommand : public BitmapCommandBase { private: unsigned int sourceCropX_; unsigned int sourceCropY_; unsigned int sourceCropWidth_; unsigned int sourceCropHeight_; unsigned int targetCropX_; unsigned int targetCropY_; unsigned int targetCropWidth_; unsigned int targetCropHeight_; protected: virtual void UndoInternal(BitmapStack::Bitmap& bitmap) const { bitmap.SetCrop(sourceCropX_, sourceCropY_, sourceCropWidth_, sourceCropHeight_); } virtual void RedoInternal(BitmapStack::Bitmap& bitmap) const { bitmap.SetCrop(targetCropX_, targetCropY_, targetCropWidth_, targetCropHeight_); } public: UndoRedoCommand(const CropBitmapTracker& tracker) : BitmapCommandBase(tracker.accessor_), sourceCropX_(tracker.cropX_), sourceCropY_(tracker.cropY_), sourceCropWidth_(tracker.cropWidth_), sourceCropHeight_(tracker.cropHeight_) { tracker.accessor_.GetBitmap().GetCrop(targetCropX_, targetCropY_, targetCropWidth_, targetCropHeight_); } }; public: CropBitmapTracker(UndoRedoStack& undoRedoStack, BitmapStack& stack, const ViewportGeometry& view, size_t bitmap, double x, double y, BitmapStack::Corner corner) : undoRedoStack_(undoRedoStack), accessor_(stack, bitmap), corner_(corner) { if (accessor_.IsValid()) { accessor_.GetBitmap().GetCrop(cropX_, cropY_, cropWidth_, cropHeight_); } } virtual bool HasRender() const { return false; } virtual void Render(CairoContext& context, double zoom) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } virtual void MouseUp() { if (accessor_.IsValid()) { undoRedoStack_.Add(new UndoRedoCommand(*this)); } } virtual void MouseMove(int displayX, int displayY, double sceneX, double sceneY) { if (accessor_.IsValid()) { unsigned int x, y; BitmapStack::Bitmap& bitmap = accessor_.GetBitmap(); if (bitmap.GetPixel(x, y, sceneX, sceneY)) { unsigned int targetX, targetWidth; if (corner_ == BitmapStack::Corner_TopLeft || corner_ == BitmapStack::Corner_BottomLeft) { targetX = std::min(x, cropX_ + cropWidth_); targetWidth = cropX_ + cropWidth_ - targetX; } else { targetX = cropX_; targetWidth = std::max(x, cropX_) - cropX_; } unsigned int targetY, targetHeight; if (corner_ == BitmapStack::Corner_TopLeft || corner_ == BitmapStack::Corner_TopRight) { targetY = std::min(y, cropY_ + cropHeight_); targetHeight = cropY_ + cropHeight_ - targetY; } else { targetY = cropY_; targetHeight = std::max(y, cropY_) - cropY_; } bitmap.SetCrop(targetX, targetY, targetWidth, targetHeight); } } } }; class ResizeBitmapTracker : public IWorldSceneMouseTracker { private: UndoRedoStack& undoRedoStack_; BitmapStack::BitmapAccessor accessor_; bool roundScaling_; double originalSpacingX_; double originalSpacingY_; double originalPanX_; double originalPanY_; BitmapStack::Corner oppositeCorner_; double oppositeX_; double oppositeY_; double baseScaling_; static double ComputeDistance(double x1, double y1, double x2, double y2) { double dx = x1 - x2; double dy = y1 - y2; return sqrt(dx * dx + dy * dy); } class UndoRedoCommand : public BitmapCommandBase { private: double sourceSpacingX_; double sourceSpacingY_; double sourcePanX_; double sourcePanY_; double targetSpacingX_; double targetSpacingY_; double targetPanX_; double targetPanY_; protected: virtual void UndoInternal(BitmapStack::Bitmap& bitmap) const { bitmap.SetPixelSpacing(sourceSpacingX_, sourceSpacingY_); bitmap.SetPan(sourcePanX_, sourcePanY_); } virtual void RedoInternal(BitmapStack::Bitmap& bitmap) const { bitmap.SetPixelSpacing(targetSpacingX_, targetSpacingY_); bitmap.SetPan(targetPanX_, targetPanY_); } public: UndoRedoCommand(const ResizeBitmapTracker& tracker) : BitmapCommandBase(tracker.accessor_), sourceSpacingX_(tracker.originalSpacingX_), sourceSpacingY_(tracker.originalSpacingY_), sourcePanX_(tracker.originalPanX_), sourcePanY_(tracker.originalPanY_), targetSpacingX_(tracker.accessor_.GetBitmap().GetPixelSpacingX()), targetSpacingY_(tracker.accessor_.GetBitmap().GetPixelSpacingY()), targetPanX_(tracker.accessor_.GetBitmap().GetPanX()), targetPanY_(tracker.accessor_.GetBitmap().GetPanY()) { } }; public: ResizeBitmapTracker(UndoRedoStack& undoRedoStack, BitmapStack& stack, size_t bitmap, double x, double y, BitmapStack::Corner corner, bool roundScaling) : undoRedoStack_(undoRedoStack), accessor_(stack, bitmap), roundScaling_(roundScaling) { if (accessor_.IsValid() && accessor_.GetBitmap().IsResizeable()) { originalSpacingX_ = accessor_.GetBitmap().GetPixelSpacingX(); originalSpacingY_ = accessor_.GetBitmap().GetPixelSpacingY(); originalPanX_ = accessor_.GetBitmap().GetPanX(); originalPanY_ = accessor_.GetBitmap().GetPanY(); switch (corner) { case BitmapStack::Corner_TopLeft: oppositeCorner_ = BitmapStack::Corner_BottomRight; break; case BitmapStack::Corner_TopRight: oppositeCorner_ = BitmapStack::Corner_BottomLeft; break; case BitmapStack::Corner_BottomLeft: oppositeCorner_ = BitmapStack::Corner_TopRight; break; case BitmapStack::Corner_BottomRight: oppositeCorner_ = BitmapStack::Corner_TopLeft; break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } accessor_.GetBitmap().GetCorner(oppositeX_, oppositeY_, oppositeCorner_); double d = ComputeDistance(x, y, oppositeX_, oppositeY_); if (d >= std::numeric_limits<float>::epsilon()) { baseScaling_ = 1.0 / d; } else { // Avoid division by zero in extreme cases accessor_.Invalidate(); } } } virtual bool HasRender() const { return false; } virtual void Render(CairoContext& context, double zoom) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } virtual void MouseUp() { if (accessor_.IsValid() && accessor_.GetBitmap().IsResizeable()) { undoRedoStack_.Add(new UndoRedoCommand(*this)); } } virtual void MouseMove(int displayX, int displayY, double sceneX, double sceneY) { static const double ROUND_SCALING = 0.1; if (accessor_.IsValid() && accessor_.GetBitmap().IsResizeable()) { double scaling = ComputeDistance(oppositeX_, oppositeY_, sceneX, sceneY) * baseScaling_; if (roundScaling_) { scaling = boost::math::round<double>((scaling / ROUND_SCALING) * ROUND_SCALING); } BitmapStack::Bitmap& bitmap = accessor_.GetBitmap(); bitmap.SetPixelSpacing(scaling * originalSpacingX_, scaling * originalSpacingY_); // Keep the opposite corner at a fixed location double ox, oy; bitmap.GetCorner(ox, oy, oppositeCorner_); bitmap.SetPan(bitmap.GetPanX() + oppositeX_ - ox, bitmap.GetPanY() + oppositeY_ - oy); } } }; class WindowingTracker : public IWorldSceneMouseTracker { public: enum Action { Action_IncreaseWidth, Action_DecreaseWidth, Action_IncreaseCenter, Action_DecreaseCenter }; private: UndoRedoStack& undoRedoStack_; BitmapStack& stack_; int clickX_; int clickY_; Action leftAction_; Action rightAction_; Action upAction_; Action downAction_; float strength_; float sourceCenter_; float sourceWidth_; static void ComputeAxisEffect(int& deltaCenter, int& deltaWidth, int delta, Action actionNegative, Action actionPositive) { if (delta < 0) { switch (actionNegative) { case Action_IncreaseWidth: deltaWidth = -delta; break; case Action_DecreaseWidth: deltaWidth = delta; break; case Action_IncreaseCenter: deltaCenter = -delta; break; case Action_DecreaseCenter: deltaCenter = delta; break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } } else if (delta > 0) { switch (actionPositive) { case Action_IncreaseWidth: deltaWidth = delta; break; case Action_DecreaseWidth: deltaWidth = -delta; break; case Action_IncreaseCenter: deltaCenter = delta; break; case Action_DecreaseCenter: deltaCenter = -delta; break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } } } class UndoRedoCommand : public UndoRedoStack::ICommand { private: BitmapStack& stack_; float sourceCenter_; float sourceWidth_; float targetCenter_; float targetWidth_; public: UndoRedoCommand(const WindowingTracker& tracker) : stack_(tracker.stack_), sourceCenter_(tracker.sourceCenter_), sourceWidth_(tracker.sourceWidth_) { stack_.GetWindowingWithDefault(targetCenter_, targetWidth_); } virtual void Undo() const { stack_.SetWindowing(sourceCenter_, sourceWidth_); } virtual void Redo() const { stack_.SetWindowing(targetCenter_, targetWidth_); } }; public: WindowingTracker(UndoRedoStack& undoRedoStack, BitmapStack& stack, int x, int y, Action leftAction, Action rightAction, Action upAction, Action downAction) : undoRedoStack_(undoRedoStack), stack_(stack), clickX_(x), clickY_(y), leftAction_(leftAction), rightAction_(rightAction), upAction_(upAction), downAction_(downAction) { stack_.GetWindowingWithDefault(sourceCenter_, sourceWidth_); float minValue, maxValue; stack.GetRange(minValue, maxValue); assert(minValue <= maxValue); float tmp; float delta = (maxValue - minValue); if (delta <= 1) { tmp = 0; } else { // NB: Visual Studio 2008 does not provide "log2f()", so we // implement it by ourselves tmp = logf(delta) / logf(2.0f); } strength_ = tmp - 7; if (strength_ < 1) { strength_ = 1; } } virtual bool HasRender() const { return false; } virtual void Render(CairoContext& context, double zoom) { throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } virtual void MouseUp() { undoRedoStack_.Add(new UndoRedoCommand(*this)); } virtual void MouseMove(int displayX, int displayY, double sceneX, double sceneY) { // https://bitbucket.org/osimis/osimis-webviewer-plugin/src/master/frontend/src/app/viewport/image-plugins/windowing-viewport-tool.class.js static const float SCALE = 1.0; int deltaCenter = 0; int deltaWidth = 0; ComputeAxisEffect(deltaCenter, deltaWidth, displayX - clickX_, leftAction_, rightAction_); ComputeAxisEffect(deltaCenter, deltaWidth, displayY - clickY_, upAction_, downAction_); float newCenter = sourceCenter_ + (deltaCenter / SCALE * strength_); float newWidth = sourceWidth_ + (deltaWidth / SCALE * strength_); stack_.SetWindowing(newCenter, newWidth); } }; class BitmapStackWidget : public WorldSceneWidget, public IObserver { private: BitmapStack& stack_; std::auto_ptr<Orthanc::Image> floatBuffer_; std::auto_ptr<CairoSurface> cairoBuffer_; bool invert_; ImageInterpolation interpolation_; bool hasSelection_; size_t selectedBitmap_; virtual bool RenderInternal(unsigned int width, unsigned int height, ImageInterpolation interpolation) { float windowCenter, windowWidth; stack_.GetWindowingWithDefault(windowCenter, windowWidth); float x0 = windowCenter - windowWidth / 2.0f; float x1 = windowCenter + windowWidth / 2.0f; if (windowWidth <= 0.001f) // Avoid division by zero at (*) { return false; } else { if (floatBuffer_.get() == NULL || floatBuffer_->GetWidth() != width || floatBuffer_->GetHeight() != height) { floatBuffer_.reset(new Orthanc::Image(Orthanc::PixelFormat_Float32, width, height, false)); } if (cairoBuffer_.get() == NULL || cairoBuffer_->GetWidth() != width || cairoBuffer_->GetHeight() != height) { cairoBuffer_.reset(new CairoSurface(width, height)); } stack_.Render(*floatBuffer_, GetView().GetMatrix(), interpolation); // Conversion from Float32 to BGRA32 (cairo). Very similar to // GrayscaleFrameRenderer => TODO MERGE? Orthanc::ImageAccessor target; cairoBuffer_->GetWriteableAccessor(target); float scaling = 255.0f / (x1 - x0); for (unsigned int y = 0; y < height; y++) { const float* p = reinterpret_cast<const float*>(floatBuffer_->GetConstRow(y)); uint8_t* q = reinterpret_cast<uint8_t*>(target.GetRow(y)); for (unsigned int x = 0; x < width; x++, p++, q += 4) { uint8_t v = 0; if (*p >= x1) { v = 255; } else if (*p <= x0) { v = 0; } else { // https://en.wikipedia.org/wiki/Linear_interpolation v = static_cast<uint8_t>(scaling * (*p - x0)); // (*) } if (invert_) { v = 255 - v; } q[0] = v; q[1] = v; q[2] = v; q[3] = 255; } } return true; } } protected: virtual Extent2D GetSceneExtent() { return stack_.GetSceneExtent(); } virtual bool RenderScene(CairoContext& context, const ViewportGeometry& view) { cairo_t* cr = context.GetObject(); if (RenderInternal(context.GetWidth(), context.GetHeight(), interpolation_)) { // https://www.cairographics.org/FAQ/#paint_from_a_surface cairo_save(cr); cairo_identity_matrix(cr); cairo_set_source_surface(cr, cairoBuffer_->GetObject(), 0, 0); cairo_paint(cr); cairo_restore(cr); } else { // https://www.cairographics.org/FAQ/#clear_a_surface context.SetSourceColor(0, 0, 0); cairo_paint(cr); } if (hasSelection_) { stack_.DrawBorder(context, selectedBitmap_, view.GetZoom()); } return true; } public: BitmapStackWidget(MessageBroker& broker, BitmapStack& stack, const std::string& name) : WorldSceneWidget(name), IObserver(broker), stack_(stack), invert_(false), interpolation_(ImageInterpolation_Nearest), hasSelection_(false), selectedBitmap_(0) // Dummy initialization { stack.RegisterObserverCallback(new Callable<BitmapStackWidget, BitmapStack::GeometryChangedMessage>(*this, &BitmapStackWidget::OnGeometryChanged)); stack.RegisterObserverCallback(new Callable<BitmapStackWidget, BitmapStack::ContentChangedMessage>(*this, &BitmapStackWidget::OnContentChanged)); } BitmapStack& GetStack() const { return stack_; } void Unselect() { hasSelection_ = false; } void Select(size_t bitmap) { hasSelection_ = true; selectedBitmap_ = bitmap; } bool LookupSelectedBitmap(size_t& bitmap) { if (hasSelection_) { bitmap = selectedBitmap_; return true; } else { return false; } } void OnGeometryChanged(const BitmapStack::GeometryChangedMessage& message) { LOG(INFO) << "Geometry has changed"; FitContent(); } void OnContentChanged(const BitmapStack::ContentChangedMessage& message) { LOG(INFO) << "Content has changed"; NotifyContentChanged(); } void SetInvert(bool invert) { if (invert_ != invert) { invert_ = invert; NotifyContentChanged(); } } void SwitchInvert() { invert_ = !invert_; NotifyContentChanged(); } bool IsInverted() const { return invert_; } void SetInterpolation(ImageInterpolation interpolation) { if (interpolation_ != interpolation) { interpolation_ = interpolation; NotifyContentChanged(); } } ImageInterpolation GetInterpolation() const { return interpolation_; } }; class BitmapStackInteractor : public IWorldSceneInteractor, public IObserver { private: enum Tool { Tool_Move, Tool_Rotate, Tool_Crop, Tool_Resize, Tool_Windowing }; UndoRedoStack undoRedoStack_; Tool tool_; static double GetHandleSize() { return 10.0; } public: BitmapStackInteractor(MessageBroker& broker) : IObserver(broker), tool_(Tool_Move) { } virtual IWorldSceneMouseTracker* CreateMouseTracker(WorldSceneWidget& worldWidget, const ViewportGeometry& view, MouseButton button, KeyboardModifiers modifiers, int viewportX, int viewportY, double x, double y, IStatusBar* statusBar) { BitmapStackWidget& widget = dynamic_cast<BitmapStackWidget&>(worldWidget); if (button == MouseButton_Left) { size_t selected; if (tool_ == Tool_Windowing) { return new WindowingTracker(undoRedoStack_, widget.GetStack(), viewportX, viewportY, WindowingTracker::Action_DecreaseWidth, WindowingTracker::Action_IncreaseWidth, WindowingTracker::Action_DecreaseCenter, WindowingTracker::Action_IncreaseCenter); } else if (!widget.LookupSelectedBitmap(selected)) { // No bitmap is currently selected size_t bitmap; if (widget.GetStack().LookupBitmap(bitmap, x, y)) { widget.Select(bitmap); } return NULL; } else if (tool_ == Tool_Crop || tool_ == Tool_Resize) { BitmapStack::BitmapAccessor accessor(widget.GetStack(), selected); BitmapStack::Corner corner; if (accessor.GetBitmap().LookupCorner(corner, x, y, view.GetZoom(), GetHandleSize())) { switch (tool_) { case Tool_Crop: return new CropBitmapTracker(undoRedoStack_, widget.GetStack(), view, selected, x, y, corner); case Tool_Resize: return new ResizeBitmapTracker(undoRedoStack_, widget.GetStack(), selected, x, y, corner, (modifiers & KeyboardModifiers_Shift)); default: throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } } else { size_t bitmap; if (widget.GetStack().LookupBitmap(bitmap, x, y)) { widget.Select(bitmap); } else { widget.Unselect(); } return NULL; } } else { size_t bitmap; if (widget.GetStack().LookupBitmap(bitmap, x, y)) { if (bitmap == selected) { switch (tool_) { case Tool_Move: return new MoveBitmapTracker(undoRedoStack_, widget.GetStack(), bitmap, x, y, (modifiers & KeyboardModifiers_Shift)); case Tool_Rotate: return new RotateBitmapTracker(undoRedoStack_, widget.GetStack(), view, bitmap, x, y, (modifiers & KeyboardModifiers_Shift)); default: break; } return NULL; } else { widget.Select(bitmap); return NULL; } } else { widget.Unselect(); return NULL; } } } else { return NULL; } } virtual void MouseOver(CairoContext& context, WorldSceneWidget& worldWidget, const ViewportGeometry& view, double x, double y, IStatusBar* statusBar) { BitmapStackWidget& widget = dynamic_cast<BitmapStackWidget&>(worldWidget); #if 0 if (statusBar != NULL) { char buf[64]; sprintf(buf, "X = %.02f Y = %.02f (in cm)", x / 10.0, y / 10.0); statusBar->SetMessage(buf); } #endif size_t selected; if (widget.LookupSelectedBitmap(selected) && (tool_ == Tool_Crop || tool_ == Tool_Resize)) { BitmapStack::BitmapAccessor accessor(widget.GetStack(), selected); BitmapStack::Corner corner; if (accessor.GetBitmap().LookupCorner(corner, x, y, view.GetZoom(), GetHandleSize())) { accessor.GetBitmap().GetCorner(x, y, corner); double z = 1.0 / view.GetZoom(); context.SetSourceColor(255, 0, 0); cairo_t* cr = context.GetObject(); cairo_set_line_width(cr, 2.0 * z); cairo_move_to(cr, x - GetHandleSize() * z, y - GetHandleSize() * z); cairo_line_to(cr, x + GetHandleSize() * z, y - GetHandleSize() * z); cairo_line_to(cr, x + GetHandleSize() * z, y + GetHandleSize() * z); cairo_line_to(cr, x - GetHandleSize() * z, y + GetHandleSize() * z); cairo_line_to(cr, x - GetHandleSize() * z, y - GetHandleSize() * z); cairo_stroke(cr); } } } virtual void MouseWheel(WorldSceneWidget& widget, MouseWheelDirection direction, KeyboardModifiers modifiers, IStatusBar* statusBar) { } virtual void KeyPressed(WorldSceneWidget& worldWidget, KeyboardKeys key, char keyChar, KeyboardModifiers modifiers, IStatusBar* statusBar) { BitmapStackWidget& widget = dynamic_cast<BitmapStackWidget&>(worldWidget); switch (keyChar) { case 'a': widget.FitContent(); break; case 'c': tool_ = Tool_Crop; break; case 'e': { Orthanc::DicomMap tags; // Minimal set of tags to generate a valid CR image tags.SetValue(Orthanc::DICOM_TAG_ACCESSION_NUMBER, "NOPE", false); tags.SetValue(Orthanc::DICOM_TAG_BODY_PART_EXAMINED, "PELVIS", false); tags.SetValue(Orthanc::DICOM_TAG_INSTANCE_NUMBER, "1", false); //tags.SetValue(Orthanc::DICOM_TAG_LATERALITY, "", false); tags.SetValue(Orthanc::DICOM_TAG_MANUFACTURER, "OSIMIS", false); tags.SetValue(Orthanc::DICOM_TAG_MODALITY, "CR", false); tags.SetValue(Orthanc::DICOM_TAG_PATIENT_BIRTH_DATE, "20000101", false); tags.SetValue(Orthanc::DICOM_TAG_PATIENT_ID, "hello", false); tags.SetValue(Orthanc::DICOM_TAG_PATIENT_NAME, "HELLO^WORLD", false); tags.SetValue(Orthanc::DICOM_TAG_PATIENT_ORIENTATION, "", false); tags.SetValue(Orthanc::DICOM_TAG_PATIENT_SEX, "M", false); tags.SetValue(Orthanc::DICOM_TAG_REFERRING_PHYSICIAN_NAME, "HOUSE^MD", false); tags.SetValue(Orthanc::DICOM_TAG_SERIES_NUMBER, "1", false); tags.SetValue(Orthanc::DICOM_TAG_SOP_CLASS_UID, "1.2.840.10008.5.1.4.1.1.1", false); tags.SetValue(Orthanc::DICOM_TAG_STUDY_ID, "STUDY", false); tags.SetValue(Orthanc::DICOM_TAG_VIEW_POSITION, "", false); widget.GetStack().Export(tags, 0.1, 0.1, widget.IsInverted(), widget.GetInterpolation()); break; } case 'i': widget.SwitchInvert(); break; case 'm': tool_ = Tool_Move; break; case 'n': { switch (widget.GetInterpolation()) { case ImageInterpolation_Nearest: LOG(INFO) << "Switching to bilinear interpolation"; widget.SetInterpolation(ImageInterpolation_Bilinear); break; case ImageInterpolation_Bilinear: LOG(INFO) << "Switching to nearest neighbor interpolation"; widget.SetInterpolation(ImageInterpolation_Nearest); break; default: throw Orthanc::OrthancException(Orthanc::ErrorCode_InternalError); } break; } case 'r': tool_ = Tool_Rotate; break; case 's': tool_ = Tool_Resize; break; case 'w': tool_ = Tool_Windowing; break; case 'y': if (modifiers & KeyboardModifiers_Control) { undoRedoStack_.Redo(); widget.NotifyContentChanged(); } break; case 'z': if (modifiers & KeyboardModifiers_Control) { undoRedoStack_.Undo(); widget.NotifyContentChanged(); } break; default: break; } } }; namespace Samples { class SingleFrameEditorApplication : public SampleSingleCanvasApplicationBase, public IObserver { private: std::auto_ptr<OrthancApiClient> orthancApiClient_; std::auto_ptr<BitmapStack> stack_; BitmapStackInteractor interactor_; public: SingleFrameEditorApplication(MessageBroker& broker) : IObserver(broker), interactor_(broker) { } virtual ~SingleFrameEditorApplication() { LOG(WARNING) << "Destroying the application"; } virtual void DeclareStartupOptions(boost::program_options::options_description& options) { boost::program_options::options_description generic("Sample options"); generic.add_options() ("instance", boost::program_options::value<std::string>(), "Orthanc ID of the instance") ("frame", boost::program_options::value<unsigned int>()->default_value(0), "Number of the frame, for multi-frame DICOM instances") ; options.add(generic); } virtual void Initialize(StoneApplicationContext* context, IStatusBar& statusBar, const boost::program_options::variables_map& parameters) { using namespace OrthancStone; context_ = context; statusBar.SetMessage("Use the key \"a\" to reinitialize the layout"); statusBar.SetMessage("Use the key \"c\" to crop"); statusBar.SetMessage("Use the key \"e\" to export DICOM to the Orthanc server"); statusBar.SetMessage("Use the key \"f\" to switch full screen"); statusBar.SetMessage("Use the key \"i\" to invert contrast"); statusBar.SetMessage("Use the key \"m\" to move objects"); statusBar.SetMessage("Use the key \"n\" to switch between nearest neighbor and bilinear interpolation"); statusBar.SetMessage("Use the key \"r\" to rotate objects"); statusBar.SetMessage("Use the key \"s\" to resize objects (not applicable to DICOM bitmaps)"); statusBar.SetMessage("Use the key \"w\" to change windowing"); statusBar.SetMessage("Use the key \"ctrl-z\" to undo action"); statusBar.SetMessage("Use the key \"ctrl-y\" to redo action"); if (parameters.count("instance") != 1) { LOG(ERROR) << "The instance ID is missing"; throw Orthanc::OrthancException(Orthanc::ErrorCode_ParameterOutOfRange); } std::string instance = parameters["instance"].as<std::string>(); int frame = parameters["frame"].as<unsigned int>(); orthancApiClient_.reset(new OrthancApiClient(IObserver::broker_, context_->GetWebService())); Orthanc::FontRegistry fonts; fonts.AddFromResource(Orthanc::EmbeddedResources::FONT_UBUNTU_MONO_BOLD_16); stack_.reset(new BitmapStack(IObserver::broker_, *orthancApiClient_)); stack_->LoadFrame(instance, frame, false); //.SetPan(200, 0); //stack_->LoadFrame("61f3143e-96f34791-ad6bbb8d-62559e75-45943e1b", 0, false); { BitmapStack::Bitmap& bitmap = stack_->LoadText(fonts.GetFont(0), "Hello\nworld"); //dynamic_cast<BitmapStack::AlphaBitmap&>(bitmap).SetForegroundValue(256); dynamic_cast<BitmapStack::AlphaBitmap&>(bitmap).SetResizeable(true); } { BitmapStack::Bitmap& bitmap = stack_->LoadTestBlock(100, 50); //dynamic_cast<BitmapStack::AlphaBitmap&>(bitmap).SetForegroundValue(256); dynamic_cast<BitmapStack::AlphaBitmap&>(bitmap).SetResizeable(true); dynamic_cast<BitmapStack::AlphaBitmap&>(bitmap).SetPan(0, 200); } mainWidget_ = new BitmapStackWidget(IObserver::broker_, *stack_, "main-widget"); mainWidget_->SetTransmitMouseOver(true); mainWidget_->SetInteractor(interactor_); //stack_->SetWindowing(128, 256); } }; } }