Mercurial > hg > orthanc-dicomweb
view Core/Dicom.cpp @ 0:d5f459244111
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 13 Mar 2015 16:06:05 +0100 |
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children | 8e7bc8bf874d |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2015 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, 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 "Dicom.h" #include "ChunkedBuffer.h" #include <gdcmDictEntry.h> #include <boost/lexical_cast.hpp> #include <json/writer.h> namespace OrthancPlugins { namespace { class ChunkedBufferWriter : public pugi::xml_writer { private: ChunkedBuffer buffer_; public: virtual void write(const void *data, size_t size) { if (size > 0) { buffer_.AddChunk(reinterpret_cast<const char*>(data), size); } } void Flatten(std::string& s) { buffer_.Flatten(s); } }; } void ParsedDicomFile::Setup(const std::string& dicom) { // Prepare a memory stream over the DICOM instance std::stringstream stream(dicom); // Parse the DICOM instance using GDCM reader_.SetStream(stream); if (!reader_.Read()) { throw std::runtime_error("GDCM cannot read this DICOM instance"); } } ParsedDicomFile::ParsedDicomFile(const OrthancPlugins::MultipartItem& item) { std::string dicom(item.data_, item.data_ + item.size_); Setup(dicom); } bool ParsedDicomFile::GetTag(std::string& result, const gdcm::Tag& tag, bool stripSpaces) const { const gdcm::DataSet& dataset = GetDataSet(); if (dataset.FindDataElement(tag)) { const gdcm::ByteValue* value = dataset.GetDataElement(tag).GetByteValue(); if (value) { result = std::string(value->GetPointer(), value->GetLength()); if (stripSpaces) { result = OrthancPlugins::StripSpaces(result); } return true; } } return false; } std::string ParsedDicomFile::GetTagWithDefault(const gdcm::Tag& tag, const std::string& defaultValue, bool stripSpaces) const { std::string result; if (!GetTag(result, tag, false)) { result = defaultValue; } if (stripSpaces) { result = OrthancPlugins::StripSpaces(result); } return result; } static std::string FormatTag(const gdcm::Tag& tag) { char tmp[16]; sprintf(tmp, "%04X%04X", tag.GetGroup(), tag.GetElement()); return std::string(tmp); } static const char* GetKeyword(const gdcm::Dict& dictionary, const gdcm::Tag& tag) { const gdcm::DictEntry &entry = dictionary.GetDictEntry(tag); const char* keyword = entry.GetKeyword(); if (strlen(keyword) != 0) { return keyword; } if (tag == DICOM_TAG_RETRIEVE_URL) { return "RetrieveURL"; } throw std::runtime_error("Unknown keyword for tag: " + FormatTag(tag)); } static const char* GetVRName(bool& isSequence, const gdcm::Dict& dictionary, const gdcm::DataElement& element) { gdcm::VR vr = element.GetVR(); if (vr == gdcm::VR::INVALID) { const gdcm::DictEntry &entry = dictionary.GetDictEntry(element.GetTag()); vr = entry.GetVR(); } isSequence = (vr == gdcm::VR::SQ); return gdcm::VR::GetVRString(vr); } static void DicomToXmlInternal(pugi::xml_node& target, const gdcm::Dict& dictionary, const gdcm::DataSet& dicom) { for (gdcm::DataSet::ConstIterator it = dicom.Begin(); it != dicom.End(); ++it) // "*it" represents a "gdcm::DataElement" { pugi::xml_node node = target.append_child("DicomAttribute"); node.append_attribute("tag").set_value(FormatTag(it->GetTag()).c_str()); node.append_attribute("keyword").set_value(GetKeyword(dictionary, it->GetTag())); bool isSequence = false; if (it->GetTag() == DICOM_TAG_RETRIEVE_URL) { // The VR of this attribute has changed from UT to UR. node.append_attribute("vr").set_value("UR"); } else { node.append_attribute("vr").set_value(GetVRName(isSequence, dictionary, *it)); } if (isSequence) { gdcm::SmartPointer<gdcm::SequenceOfItems> seq = it->GetValueAsSQ(); for (gdcm::SequenceOfItems::SizeType i = 1; i <= seq->GetNumberOfItems(); i++) { pugi::xml_node item = node.append_child("Item"); std::string number = boost::lexical_cast<std::string>(i); item.append_attribute("number").set_value(number.c_str()); DicomToXmlInternal(item, dictionary, seq->GetItem(i).GetNestedDataSet()); } } else { // Deal with other value representations pugi::xml_node value = node.append_child("Value"); value.append_attribute("number").set_value("1"); const gdcm::ByteValue* data = it->GetByteValue(); if (data) { std::string tmp(data->GetPointer(), data->GetLength()); tmp = OrthancPlugins::StripSpaces(tmp); value.append_child(pugi::node_pcdata).set_value(tmp.c_str()); } } } } void DicomToXml(pugi::xml_document& target, const gdcm::Dict& dictionary, const gdcm::DataSet& dicom) { pugi::xml_node root = target.append_child("NativeDicomModel"); root.append_attribute("xmlns").set_value("http://dicom.nema.org/PS3.19/models/NativeDICOM"); root.append_attribute("xsi:schemaLocation").set_value("http://dicom.nema.org/PS3.19/models/NativeDICOM"); root.append_attribute("xmlns:xsi").set_value("http://www.w3.org/2001/XMLSchema-instance"); DicomToXmlInternal(root, dictionary, dicom); pugi::xml_node decl = target.prepend_child(pugi::node_declaration); decl.append_attribute("version").set_value("1.0"); decl.append_attribute("encoding").set_value("utf-8"); } void DicomToJson(Json::Value& target, const gdcm::Dict& dictionary, const gdcm::DataSet& dicom) { target = Json::objectValue; for (gdcm::DataSet::ConstIterator it = dicom.Begin(); it != dicom.End(); ++it) // "*it" represents a "gdcm::DataElement" { Json::Value node = Json::objectValue; bool isSequence = false; if (it->GetTag() == DICOM_TAG_RETRIEVE_URL) { // The VR of this attribute has changed from UT to UR. node["vr"] = "UR"; } else { node["vr"] = GetVRName(isSequence, dictionary, *it); } if (isSequence) { // Deal with sequences node["Value"] = Json::arrayValue; gdcm::SmartPointer<gdcm::SequenceOfItems> seq = it->GetValueAsSQ(); for (gdcm::SequenceOfItems::SizeType i = 1; i <= seq->GetNumberOfItems(); i++) { Json::Value child; DicomToJson(child, dictionary, seq->GetItem(i).GetNestedDataSet()); node["Value"].append(child); } } else { // Deal with other value representations node["Value"] = Json::arrayValue; const gdcm::ByteValue* data = it->GetByteValue(); if (data) { std::string tmp(data->GetPointer(), data->GetLength()); node["Value"].append(OrthancPlugins::StripSpaces(tmp)); } } target[FormatTag(it->GetTag())] = node; } } void GenerateSingleDicomAnswer(std::string& result, const gdcm::Dict& dictionary, const gdcm::DataSet& dicom, bool isXml) { if (isXml) { pugi::xml_document doc; DicomToXml(doc, dictionary, dicom); ChunkedBufferWriter writer; doc.save(writer, " ", pugi::format_default, pugi::encoding_utf8); writer.Flatten(result); } else { Json::Value v; DicomToJson(v, dictionary, dicom); Json::FastWriter writer; result = writer.write(v); } } void AnswerDicom(OrthancPluginContext* context, OrthancPluginRestOutput* output, const gdcm::Dict& dictionary, const gdcm::DataSet& dicom, bool isXml) { std::string answer; GenerateSingleDicomAnswer(answer, dictionary, dicom, isXml); OrthancPluginAnswerBuffer(context, output, answer.c_str(), answer.size(), isXml ? "application/dicom+xml" : "application/json"); } }