/* * * Copyright (C) 2015-2016, Open Connections GmbH * All rights reserved. See COPYRIGHT file for details. * * This software and supporting documentation are maintained by * * OFFIS e.V. * R&D Division Health * Escherweg 2 * D-26121 Oldenburg, Germany * * * Module: dcmfg * * Author: Michael Onken * * Purpose: Class for managing Segmentation Functional Group * */ #ifndef FGSEG_H #define FGSEG_H #include "dcmtk/config/osconfig.h" #include "dcmtk/dcmdata/dcitem.h" #include "dcmtk/dcmdata/dcsequen.h" #include "dcmtk/dcmdata/dcvrus.h" #include "dcmtk/dcmfg/fgbase.h" /** Class representing the Segmentation Functional Group Macro */ class DCMTK_DCMFG_EXPORT FGSegmentation : public FGBase { public: /** Constructor, creates empty functional group */ FGSegmentation(); /** Destructor, frees memory */ virtual ~FGSegmentation(); /** Returns a deep copy of this object * @return Deep copy of this object */ virtual FGBase *clone() const; /** Returns that this functional group can be used shared or per-frame, * i.e.\ both * @return Always returns DcmFGTypes::EFGS_BOTH */ virtual DcmFGTypes::E_FGSharedType getSharedType() const {return DcmFGTypes::EFGS_BOTH;} /** Clear all data */ virtual void clearData(); /** Check whether data in this functional group is valid * @return EC_Normal if data is valid, error otherwise */ OFCondition check() const; /** Comparison operator that compares the normalized value of this object * with a given object of the same type, i.e.\ the elements within both * functional groups (this and rhs parameter) are compared by value! * Both objects (this and rhs) need to have the same type (i.e.\ both * FGSegmentation) to be comparable. This function is used in order * to decide whether a functional group already exists, or is new. This * is used in particular to find out whether a given functional group * can be shared (i.e.\ the same information already exists as shared * functional group) or is different from the same shared group. In that * case the shared functional group must be distributed into per-frame * functional groups, instead. The exact implementation for implementing * the comparison is not relevant. However, it must be a comparison * by value. * @param rhs the right hand side of the comparison * @return 0 if the object values are equal. * -1 if either the value of the first component that does not match * is lower in the rhs object, or all compared components match * but the rhs component is shorter. Also returned if this type and * rhs type (DcmFGTypes::E_FGType) do not match. * 1 if either the value of the first component that does not match * is greater in the rhs object, or all compared components match * but the rhs component is longer. */ virtual int compare(const FGBase& rhs) const; /** Get Referenced Segment Number * @param value Reference to variable in which the value should be stored * @param pos Index value to get (0..vm-1) * @return EC_Normal if successful, an error code otherwise */ virtual OFCondition getReferencedSegmentNumber(Uint16 &value, const unsigned long pos = 0); /** Set Referenced Segment Number * @param segmentNumber Value to be set * @return EC_Normal if successful, an error code otherwise */ virtual OFCondition setReferencedSegmentNumber(const Uint16 &segmentNumber); /** Read functional group from item, must contain the Segment Identification * Sequence * @param item The item to read from * @return EC_Normal if reading was successful, error otherwise */ virtual OFCondition read(DcmItem& item); /** Write functional group to item, will write Segment Identification * Sequence * @param item The item to write to * @return EC_Normal if writing was successful, error otherwise */ virtual OFCondition write(DcmItem& item); private: /// Referenced Segment Number: (US, 1-n, 1) /// Represents single value within the single permitted item of the /// Segment Identification Sequence being the data structure the /// Segmentation FG is made of. DcmUnsignedShort m_ReferencedSegmentNumber; }; #endif // FGSEG_H