Mercurial > hg > orthanc-stone
view Framework/Deprecated/Toolbox/Slice.cpp @ 986:4e2de6b8a70b
Uninit. var.
author | Benjamin Golinvaux <bgo@osimis.io> |
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date | Mon, 09 Sep 2019 10:41:27 +0200 |
parents | c35e98d22764 |
children | 1f74bc3459ba |
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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/>. **/ #include "Slice.h" #include "../../StoneEnumerations.h" #include "../../Toolbox/GeometryToolbox.h" #include <Core/Logging.h> #include <Core/OrthancException.h> #include <Core/Toolbox.h> #include <boost/lexical_cast.hpp> namespace Deprecated { static bool ParseDouble(double& target, const std::string& source) { try { target = boost::lexical_cast<double>(source); return true; } catch (boost::bad_lexical_cast&) { return false; } } Slice* Slice::Clone() const { std::auto_ptr<Slice> target(new Slice()); target->type_ = type_; target->orthancInstanceId_ = orthancInstanceId_; target->sopClassUid_ = sopClassUid_; target->frame_ = frame_; target->frameCount_ = frameCount_; target->geometry_ = geometry_; target->pixelSpacingX_ = pixelSpacingX_; target->pixelSpacingY_ = pixelSpacingY_; target->thickness_ = thickness_; target->width_ = width_; target->height_ = height_; target->converter_ = converter_; if (imageInformation_.get() != NULL) target->imageInformation_.reset(imageInformation_->Clone()); return target.release(); } bool Slice::ComputeRTDoseGeometry(const Orthanc::DicomMap& dataset, unsigned int frame) { // http://dicom.nema.org/medical/Dicom/2016a/output/chtml/part03/sect_C.8.8.3.2.html { std::string increment; if (dataset.CopyToString(increment, Orthanc::DICOM_TAG_FRAME_INCREMENT_POINTER, false)) { Orthanc::Toolbox::ToUpperCase(increment); if (increment != "3004,000C") // This is the "Grid Frame Offset Vector" tag { LOG(ERROR) << "Bad value for the \"FrameIncrementPointer\" tag"; return false; } } } std::string offsetTag; if (!dataset.CopyToString(offsetTag, Orthanc::DICOM_TAG_GRID_FRAME_OFFSET_VECTOR, false) || offsetTag.empty()) { LOG(ERROR) << "Cannot read the \"GridFrameOffsetVector\" tag, check you are using Orthanc >= 1.3.1"; return false; } std::vector<std::string> offsets; Orthanc::Toolbox::TokenizeString(offsets, offsetTag, '\\'); if (frameCount_ <= 1 || offsets.size() < frameCount_ || offsets.size() < 2 || frame >= frameCount_) { LOG(ERROR) << "No information about the 3D location of some slice(s) in a RT DOSE"; return false; } double offset0, offset1, z; if (!ParseDouble(offset0, offsets[0]) || !ParseDouble(offset1, offsets[1]) || !ParseDouble(z, offsets[frame])) { LOG(ERROR) << "Invalid syntax"; return false; } if (!OrthancStone::LinearAlgebra::IsCloseToZero(offset0)) { LOG(ERROR) << "Invalid syntax"; return false; } geometry_ = OrthancStone::CoordinateSystem3D(geometry_.GetOrigin() + z * geometry_.GetNormal(), //+ 650 * geometry_.GetAxisX(), geometry_.GetAxisX(), geometry_.GetAxisY()); thickness_ = offset1 - offset0; if (thickness_ < 0) { thickness_ = -thickness_; } return true; } bool Slice::ParseOrthancFrame(const Orthanc::DicomMap& dataset, const std::string& instanceId, unsigned int frame) { orthancInstanceId_ = instanceId; frame_ = frame; type_ = Type_OrthancDecodableFrame; imageInformation_.reset(new Orthanc::DicomImageInformation(dataset)); if (!dataset.CopyToString(sopClassUid_, Orthanc::DICOM_TAG_SOP_CLASS_UID, false) || sopClassUid_.empty()) { LOG(ERROR) << "Instance without a SOP class UID"; return false; } if (!dataset.ParseUnsignedInteger32(frameCount_, Orthanc::DICOM_TAG_NUMBER_OF_FRAMES)) { frameCount_ = 1; // Assume instance with one frame } if (frame >= frameCount_) { return false; } if (!dataset.ParseUnsignedInteger32(width_, Orthanc::DICOM_TAG_COLUMNS) || !dataset.ParseUnsignedInteger32(height_, Orthanc::DICOM_TAG_ROWS)) { return false; } thickness_ = 100.0 * std::numeric_limits<double>::epsilon(); std::string tmp; if (dataset.CopyToString(tmp, Orthanc::DICOM_TAG_SLICE_THICKNESS, false)) { if (!tmp.empty() && !ParseDouble(thickness_, tmp)) { return false; // Syntax error } } converter_.ReadParameters(dataset); OrthancStone::GeometryToolbox::GetPixelSpacing(pixelSpacingX_, pixelSpacingY_, dataset); std::string position, orientation; if (dataset.CopyToString(position, Orthanc::DICOM_TAG_IMAGE_POSITION_PATIENT, false) && dataset.CopyToString(orientation, Orthanc::DICOM_TAG_IMAGE_ORIENTATION_PATIENT, false)) { geometry_ = OrthancStone::CoordinateSystem3D(position, orientation); bool ok = true; switch (OrthancStone::StringToSopClassUid(sopClassUid_)) { case OrthancStone::SopClassUid_RTDose: type_ = Type_OrthancRawFrame; ok = ComputeRTDoseGeometry(dataset, frame); break; default: break; } if (!ok) { LOG(ERROR) << "Cannot deduce the 3D location of frame " << frame << " in instance " << instanceId << ", whose SOP class UID is: " << sopClassUid_; return false; } } return true; } const std::string Slice::GetOrthancInstanceId() const { if (type_ == Type_OrthancDecodableFrame || type_ == Type_OrthancRawFrame) { return orthancInstanceId_; } else { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } } unsigned int Slice::GetFrame() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return frame_; } const OrthancStone::CoordinateSystem3D& Slice::GetGeometry() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return geometry_; } double Slice::GetThickness() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return thickness_; } double Slice::GetPixelSpacingX() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return pixelSpacingX_; } double Slice::GetPixelSpacingY() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return pixelSpacingY_; } unsigned int Slice::GetWidth() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return width_; } unsigned int Slice::GetHeight() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return height_; } const DicomFrameConverter& Slice::GetConverter() const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } return converter_; } bool Slice::ContainsPlane(const OrthancStone::CoordinateSystem3D& plane) const { if (type_ == Type_Invalid) { throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } bool opposite; return (OrthancStone::GeometryToolbox::IsParallelOrOpposite(opposite, GetGeometry().GetNormal(), plane.GetNormal()) && OrthancStone::LinearAlgebra::IsNear(GetGeometry().ProjectAlongNormal(GetGeometry().GetOrigin()), GetGeometry().ProjectAlongNormal(plane.GetOrigin()), thickness_ / 2.0)); } void Slice::GetExtent(std::vector<OrthancStone::Vector>& points) const { double sx = GetPixelSpacingX(); double sy = GetPixelSpacingY(); double w = static_cast<double>(GetWidth()); double h = static_cast<double>(GetHeight()); points.clear(); points.push_back(GetGeometry().MapSliceToWorldCoordinates(-0.5 * sx, -0.5 * sy)); points.push_back(GetGeometry().MapSliceToWorldCoordinates((w - 0.5) * sx, -0.5 * sy)); points.push_back(GetGeometry().MapSliceToWorldCoordinates(-0.5 * sx, (h - 0.5) * sy)); points.push_back(GetGeometry().MapSliceToWorldCoordinates((w - 0.5) * sx, (h - 0.5) * sy)); } const Orthanc::DicomImageInformation& Slice::GetImageInformation() const { if (imageInformation_.get() == NULL) { // Only available if constructing the "Slice" object with a DICOM map throw Orthanc::OrthancException(Orthanc::ErrorCode_BadSequenceOfCalls); } else { return *imageInformation_; } } }