Mercurial > hg > orthanc
view OrthancServer/FromDcmtkBridge.cpp @ 1365:38ce915cb455 query-retrieve
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Thu, 21 May 2015 17:03:15 +0200 |
parents | 0649c5aef34a |
children | b22ba8c5edbe |
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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 General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * In addition, as a special exception, the copyright holders of this * program give permission to link the code of its release with the * OpenSSL project's "OpenSSL" library (or with modified versions of it * that use the same license as the "OpenSSL" library), and distribute * the linked executables. You must obey the GNU General Public License * in all respects for all of the code used other than "OpenSSL". If you * modify file(s) with this exception, you may extend this exception to * your version of the file(s), but you are not obligated to do so. If * you do not wish to do so, delete this exception statement from your * version. If you delete this exception statement from all source files * in the program, then also delete it here. * * 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 * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "PrecompiledHeadersServer.h" #ifndef NOMINMAX #define NOMINMAX #endif #include "Internals/DicomImageDecoder.h" #include "FromDcmtkBridge.h" #include "ToDcmtkBridge.h" #include "OrthancInitialization.h" #include "../Core/Toolbox.h" #include "../Core/OrthancException.h" #include "../Core/ImageFormats/PngWriter.h" #include "../Core/Uuid.h" #include "../Core/DicomFormat/DicomString.h" #include "../Core/DicomFormat/DicomNullValue.h" #include "../Core/DicomFormat/DicomIntegerPixelAccessor.h" #include <list> #include <limits> #include <boost/lexical_cast.hpp> #include <dcmtk/dcmdata/dcchrstr.h> #include <dcmtk/dcmdata/dcdicent.h> #include <dcmtk/dcmdata/dcdict.h> #include <dcmtk/dcmdata/dcfilefo.h> #include <dcmtk/dcmdata/dcistrmb.h> #include <dcmtk/dcmdata/dcuid.h> #include <dcmtk/dcmdata/dcmetinf.h> #include <dcmtk/dcmdata/dcdeftag.h> #include <dcmtk/dcmdata/dcvrae.h> #include <dcmtk/dcmdata/dcvras.h> #include <dcmtk/dcmdata/dcvrcs.h> #include <dcmtk/dcmdata/dcvrda.h> #include <dcmtk/dcmdata/dcvrds.h> #include <dcmtk/dcmdata/dcvrdt.h> #include <dcmtk/dcmdata/dcvrfd.h> #include <dcmtk/dcmdata/dcvrfl.h> #include <dcmtk/dcmdata/dcvris.h> #include <dcmtk/dcmdata/dcvrlo.h> #include <dcmtk/dcmdata/dcvrlt.h> #include <dcmtk/dcmdata/dcvrpn.h> #include <dcmtk/dcmdata/dcvrsh.h> #include <dcmtk/dcmdata/dcvrsl.h> #include <dcmtk/dcmdata/dcvrss.h> #include <dcmtk/dcmdata/dcvrst.h> #include <dcmtk/dcmdata/dcvrtm.h> #include <dcmtk/dcmdata/dcvrui.h> #include <dcmtk/dcmdata/dcvrul.h> #include <dcmtk/dcmdata/dcvrus.h> #include <dcmtk/dcmdata/dcvrut.h> #include <dcmtk/dcmdata/dcpixel.h> #include <dcmtk/dcmdata/dcpixseq.h> #include <dcmtk/dcmdata/dcpxitem.h> #include <dcmtk/dcmdata/dcvrat.h> #include <boost/math/special_functions/round.hpp> #include <glog/logging.h> #include <dcmtk/dcmdata/dcostrmb.h> namespace Orthanc { static inline uint16_t GetCharValue(char c) { if (c >= '0' && c <= '9') return c - '0'; else if (c >= 'a' && c <= 'f') return c - 'a' + 10; else if (c >= 'A' && c <= 'F') return c - 'A' + 10; else return 0; } static inline uint16_t GetTagValue(const char* c) { return ((GetCharValue(c[0]) << 12) + (GetCharValue(c[1]) << 8) + (GetCharValue(c[2]) << 4) + GetCharValue(c[3])); } Encoding FromDcmtkBridge::DetectEncoding(DcmDataset& dataset) { // By default, Latin1 encoding is assumed std::string s = Configuration::GetGlobalStringParameter("DefaultEncoding", ""); Encoding encoding = s.empty() ? Encoding_Latin1 : StringToEncoding(s.c_str()); OFString tmp; if (dataset.findAndGetOFString(DCM_SpecificCharacterSet, tmp).good()) { std::string characterSet = Toolbox::StripSpaces(std::string(tmp.c_str())); if (characterSet.empty()) { // Empty specific character set tag: Use the default encoding } else if (GetDicomEncoding(encoding, characterSet.c_str())) { // The specific character set is supported by the Orthanc core } else { LOG(WARNING) << "Value of Specific Character Set (0008,0005) is not supported: " << characterSet << ", fallback to ASCII (remove all special characters)"; encoding = Encoding_Ascii; } } else { // No specific character set tag: Use the default encoding } return encoding; } void FromDcmtkBridge::Convert(DicomMap& target, DcmDataset& dataset) { Encoding encoding = DetectEncoding(dataset); target.Clear(); for (unsigned long i = 0; i < dataset.card(); i++) { DcmElement* element = dataset.getElement(i); if (element && element->isLeaf()) { target.SetValue(element->getTag().getGTag(), element->getTag().getETag(), ConvertLeafElement(*element, encoding)); } } } DicomTag FromDcmtkBridge::Convert(const DcmTag& tag) { return DicomTag(tag.getGTag(), tag.getETag()); } DicomTag FromDcmtkBridge::GetTag(const DcmElement& element) { return DicomTag(element.getGTag(), element.getETag()); } bool FromDcmtkBridge::IsPrivateTag(DcmTag& tag) { #if 1 DcmTagKey tmp(tag.getGTag(), tag.getETag()); return tmp.isPrivate(); #else // Implementation for Orthanc versions <= 0.8.5 return (tag.getPrivateCreator() != NULL || !strcmp("PrivateCreator", tag.getTagName())); // TODO - This may change with future versions of DCMTK #endif } bool FromDcmtkBridge::IsPrivateTag(const DicomTag& tag) { #if 1 DcmTagKey tmp(tag.GetGroup(), tag.GetElement()); return tmp.isPrivate(); #else // Implementation for Orthanc versions <= 0.8.5 DcmTag tmp(tag.GetGroup(), tag.GetElement()); return IsPrivateTag(tmp); #endif } DicomValue* FromDcmtkBridge::ConvertLeafElement(DcmElement& element, Encoding encoding) { if (!element.isLeaf()) { throw OrthancException("Only applicable to leaf elements"); } if (element.isaString()) { char *c; if (element.getString(c).good() && c != NULL) { std::string s(c); std::string utf8 = Toolbox::ConvertToUtf8(s, encoding); return new DicomString(utf8); } else { return new DicomNullValue; } } try { // http://support.dcmtk.org/docs/dcvr_8h-source.html switch (element.getVR()) { /** * TODO. **/ case EVR_OB: // other byte case EVR_OF: // other float case EVR_OW: // other word case EVR_UN: // unknown value representation return new DicomNullValue; /** * String types, should never happen at this point because of * "element.isaString()". **/ case EVR_DS: // decimal string case EVR_IS: // integer string case EVR_AS: // age string case EVR_DA: // date string case EVR_DT: // date time string case EVR_TM: // time string case EVR_AE: // application entity title case EVR_CS: // code string case EVR_SH: // short string case EVR_LO: // long string case EVR_ST: // short text case EVR_LT: // long text case EVR_UT: // unlimited text case EVR_PN: // person name case EVR_UI: // unique identifier return new DicomNullValue; /** * Numberic types **/ case EVR_SL: // signed long { Sint32 f; if (dynamic_cast<DcmSignedLong&>(element).getSint32(f).good()) return new DicomString(boost::lexical_cast<std::string>(f)); else return new DicomNullValue; } case EVR_SS: // signed short { Sint16 f; if (dynamic_cast<DcmSignedShort&>(element).getSint16(f).good()) return new DicomString(boost::lexical_cast<std::string>(f)); else return new DicomNullValue; } case EVR_UL: // unsigned long { Uint32 f; if (dynamic_cast<DcmUnsignedLong&>(element).getUint32(f).good()) return new DicomString(boost::lexical_cast<std::string>(f)); else return new DicomNullValue; } case EVR_US: // unsigned short { Uint16 f; if (dynamic_cast<DcmUnsignedShort&>(element).getUint16(f).good()) return new DicomString(boost::lexical_cast<std::string>(f)); else return new DicomNullValue; } case EVR_FL: // float single-precision { Float32 f; if (dynamic_cast<DcmFloatingPointSingle&>(element).getFloat32(f).good()) return new DicomString(boost::lexical_cast<std::string>(f)); else return new DicomNullValue; } case EVR_FD: // float double-precision { Float64 f; if (dynamic_cast<DcmFloatingPointDouble&>(element).getFloat64(f).good()) return new DicomString(boost::lexical_cast<std::string>(f)); else return new DicomNullValue; } /** * Attribute tag. **/ case EVR_AT: { DcmTagKey tag; if (dynamic_cast<DcmAttributeTag&>(element).getTagVal(tag, 0).good()) { DicomTag t(tag.getGroup(), tag.getElement()); return new DicomString(t.Format()); } else { return new DicomNullValue; } } /** * Sequence types, should never occur at this point because of * "element.isLeaf()". **/ case EVR_SQ: // sequence of items return new DicomNullValue; /** * Internal to DCMTK. **/ case EVR_ox: // OB or OW depending on context case EVR_xs: // SS or US depending on context case EVR_lt: // US, SS or OW depending on context, used for LUT Data (thus the name) case EVR_na: // na="not applicable", for data which has no VR case EVR_up: // up="unsigned pointer", used internally for DICOMDIR suppor case EVR_item: // used internally for items case EVR_metainfo: // used internally for meta info datasets case EVR_dataset: // used internally for datasets case EVR_fileFormat: // used internally for DICOM files case EVR_dicomDir: // used internally for DICOMDIR objects case EVR_dirRecord: // used internally for DICOMDIR records case EVR_pixelSQ: // used internally for pixel sequences in a compressed image case EVR_pixelItem: // used internally for pixel items in a compressed image case EVR_UNKNOWN: // used internally for elements with unknown VR (encoded with 4-byte length field in explicit VR) case EVR_PixelData: // used internally for uncompressed pixeld data case EVR_OverlayData: // used internally for overlay data case EVR_UNKNOWN2B: // used internally for elements with unknown VR with 2-byte length field in explicit VR return new DicomNullValue; /** * Default case. **/ default: return new DicomNullValue; } } catch (boost::bad_lexical_cast) { return new DicomNullValue; } catch (std::bad_cast) { return new DicomNullValue; } } static void StoreElement(Json::Value& target, DcmElement& element, unsigned int maxStringLength, Encoding encoding); static void StoreItem(Json::Value& target, DcmItem& item, unsigned int maxStringLength, Encoding encoding) { target = Json::Value(Json::objectValue); for (unsigned long i = 0; i < item.card(); i++) { DcmElement* element = item.getElement(i); StoreElement(target, *element, maxStringLength, encoding); } } static void StoreElement(Json::Value& target, DcmElement& element, unsigned int maxStringLength, Encoding encoding) { assert(target.type() == Json::objectValue); DicomTag tag(FromDcmtkBridge::GetTag(element)); const std::string formattedTag = tag.Format(); #if 0 const std::string tagName = FromDcmtkBridge::GetName(tag); #else // This version of the code gives access to the name of the private tags DcmTag tagbis(element.getTag()); const std::string tagName(tagbis.getTagName()); #endif if (element.isLeaf()) { Json::Value value(Json::objectValue); value["Name"] = tagName; if (tagbis.getPrivateCreator() != NULL) { value["PrivateCreator"] = tagbis.getPrivateCreator(); } std::auto_ptr<DicomValue> v(FromDcmtkBridge::ConvertLeafElement(element, encoding)); if (v->IsNull()) { value["Type"] = "Null"; value["Value"] = Json::nullValue; } else { std::string s = v->AsString(); if (maxStringLength == 0 || s.size() <= maxStringLength) { value["Type"] = "String"; value["Value"] = s; } else { value["Type"] = "TooLong"; value["Value"] = Json::nullValue; } } target[formattedTag] = value; } else { Json::Value children(Json::arrayValue); // "All subclasses of DcmElement except for DcmSequenceOfItems // are leaf nodes, while DcmSequenceOfItems, DcmItem, DcmDataset // etc. are not." The following cast is thus OK. DcmSequenceOfItems& sequence = dynamic_cast<DcmSequenceOfItems&>(element); for (unsigned long i = 0; i < sequence.card(); i++) { DcmItem* child = sequence.getItem(i); Json::Value& v = children.append(Json::objectValue); StoreItem(v, *child, maxStringLength, encoding); } target[formattedTag]["Name"] = tagName; target[formattedTag]["Type"] = "Sequence"; target[formattedTag]["Value"] = children; } } void FromDcmtkBridge::ToJson(Json::Value& root, DcmDataset& dataset, unsigned int maxStringLength) { StoreItem(root, dataset, maxStringLength, DetectEncoding(dataset)); } void FromDcmtkBridge::ToJson(Json::Value& target, const std::string& path, unsigned int maxStringLength) { DcmFileFormat dicom; if (!dicom.loadFile(path.c_str()).good()) { throw OrthancException(ErrorCode_BadFileFormat); } else { FromDcmtkBridge::ToJson(target, *dicom.getDataset(), maxStringLength); } } std::string FromDcmtkBridge::GetName(const DicomTag& t) { // Some patches for important tags because of different DICOM // dictionaries between DCMTK versions std::string n = t.GetMainTagsName(); if (n.size() != 0) { return n; } // End of patches #if 0 DcmTagKey tag(t.GetGroup(), t.GetElement()); const DcmDataDictionary& dict = dcmDataDict.rdlock(); const DcmDictEntry* entry = dict.findEntry(tag, NULL); std::string s(DcmTag_ERROR_TagName); if (entry != NULL) { s = std::string(entry->getTagName()); } dcmDataDict.unlock(); return s; #else DcmTag tag(t.GetGroup(), t.GetElement()); const char* name = tag.getTagName(); if (name == NULL) { return DcmTag_ERROR_TagName; } else { return std::string(name); } #endif } DicomTag FromDcmtkBridge::ParseTag(const char* name) { if (strlen(name) == 9 && isxdigit(name[0]) && isxdigit(name[1]) && isxdigit(name[2]) && isxdigit(name[3]) && (name[4] == '-' || name[4] == ',') && isxdigit(name[5]) && isxdigit(name[6]) && isxdigit(name[7]) && isxdigit(name[8])) { uint16_t group = GetTagValue(name); uint16_t element = GetTagValue(name + 5); return DicomTag(group, element); } #if 0 const DcmDataDictionary& dict = dcmDataDict.rdlock(); const DcmDictEntry* entry = dict.findEntry(name); if (entry == NULL) { dcmDataDict.unlock(); throw OrthancException("Unknown DICOM tag"); } else { DcmTagKey key = entry->getKey(); DicomTag tag(key.getGroup(), key.getElement()); dcmDataDict.unlock(); return tag; } #else DcmTag tag; if (DcmTag::findTagFromName(name, tag).good()) { return DicomTag(tag.getGTag(), tag.getETag()); } else { throw OrthancException("Unknown DICOM tag"); } #endif } void FromDcmtkBridge::Print(FILE* fp, const DicomMap& m) { for (DicomMap::Map::const_iterator it = m.map_.begin(); it != m.map_.end(); ++it) { DicomTag t = it->first; std::string s = it->second->AsString(); fprintf(fp, "0x%04x 0x%04x (%s) [%s]\n", t.GetGroup(), t.GetElement(), GetName(t).c_str(), s.c_str()); } } void FromDcmtkBridge::ToJson(Json::Value& result, const DicomMap& values) { if (result.type() != Json::objectValue) { throw OrthancException(ErrorCode_BadParameterType); } result.clear(); for (DicomMap::Map::const_iterator it = values.map_.begin(); it != values.map_.end(); ++it) { result[GetName(it->first)] = it->second->AsString(); } } std::string FromDcmtkBridge::GenerateUniqueIdentifier(ResourceType level) { char uid[100]; switch (level) { case ResourceType_Patient: // The "PatientID" field is of type LO (Long String), 64 // Bytes Maximum. An UUID is of length 36, thus it can be used // as a random PatientID. return Toolbox::GenerateUuid(); case ResourceType_Instance: return dcmGenerateUniqueIdentifier(uid, SITE_INSTANCE_UID_ROOT); case ResourceType_Series: return dcmGenerateUniqueIdentifier(uid, SITE_SERIES_UID_ROOT); case ResourceType_Study: return dcmGenerateUniqueIdentifier(uid, SITE_STUDY_UID_ROOT); default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } bool FromDcmtkBridge::SaveToMemoryBuffer(std::string& buffer, DcmDataset& dataSet) { // Determine the transfer syntax which shall be used to write the // information to the file. We always switch to the Little Endian // syntax, with explicit length. // http://support.dcmtk.org/docs/dcxfer_8h-source.html /** * Note that up to Orthanc 0.7.1 (inclusive), the * "EXS_LittleEndianExplicit" was always used to save the DICOM * dataset into memory. We now keep the original transfer syntax * (if available). **/ E_TransferSyntax xfer = dataSet.getOriginalXfer(); if (xfer == EXS_Unknown) { // No information about the original transfer syntax: This is // most probably a DICOM dataset that was read from memory. xfer = EXS_LittleEndianExplicit; } E_EncodingType encodingType = /*opt_sequenceType*/ EET_ExplicitLength; // Create the meta-header information DcmFileFormat ff(&dataSet); ff.validateMetaInfo(xfer); ff.removeInvalidGroups(); // Create a memory buffer with the proper size uint32_t s = ff.calcElementLength(xfer, encodingType); buffer.resize(s); DcmOutputBufferStream ob(&buffer[0], s); // Fill the memory buffer with the meta-header and the dataset ff.transferInit(); OFCondition c = ff.write(ob, xfer, encodingType, NULL, /*opt_groupLength*/ EGL_recalcGL, /*opt_paddingType*/ EPD_withoutPadding); ff.transferEnd(); // Handle errors if (c.good()) { return true; } else { buffer.clear(); return false; } } bool FromDcmtkBridge::IsPNValueRepresentation(const DicomTag& tag) { DcmTag t(tag.GetGroup(), tag.GetElement()); return t.getEVR() == EVR_PN; } }