/usr/include/dcmtk/dcmfg/fgrealworldvaluemapping.h is in libdcmtk-dev 3.6.1~20160216-4.
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*
* Copyright (C) 2015, 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 Real World Value Mapping Functional Group
*
*/
#ifndef FGREALWORLDVALUEMAPPING_H
#define FGREALWORLDVALUEMAPPING_H
#include "dcmtk/config/osconfig.h"
#include "dcmtk/dcmfg/fgbase.h"
#include "dcmtk/dcmdata/dcitem.h"
#include "dcmtk/dcmiod/modbase.h"
#include "dcmtk/dcmiod/iodmacro.h"
/** Class representing the Real World Value Mapping Functional Group that
* specifies the mapping of stored values to associated Real World values
*/
class DCMTK_DCMFG_EXPORT FGRealWorldValueMapping: public FGBase
{
public:
// Forward declaration
class RWVMItem;
/** Constructor, creates empty functional group
*/
FGRealWorldValueMapping();
/** Desctructor, frees memory
*/
virtual ~FGRealWorldValueMapping();
/** Returs a deep copy of this object
* @return Deep copy of this object
*/
virtual FGBase *clone() const;
/** Returns that this functional group can be used as both, shared
* and per-frame
* @returns Always returns DcmFGTypes::EFGS_BOTH
*/
virtual DcmFGTypes::E_FGSharedType getSharedType() const {return DcmFGTypes::EFGS_BOTH;}
/** Clear all data
*/
virtual void clearData();
/** Check whether data of functional group is valid
* @return EC_Normal if data is valid, error otherwise
*/
virtual OFCondition check() const;
/** Read functional group from item, must contain the Real World Value Mapping
* Sequence
* @param item The item to read from
* @return EC_Normal if reading was succesful, error otherwise
*/
virtual OFCondition read(DcmItem& item);
/** Writes this functional group to item, i.e.\ will write the Real World Value
* Mapping Sequence
* @param item The item to read from
* @return EC_Normal if reading was succesful, error otherwise
*/
virtual OFCondition write(DcmItem& item);
// --- get() functionality ---
/** Return references to the various items inside the Real World Value Mapping
* Sequence
* @return Reference to Real World Value Mapping Sequence items
*/
virtual OFVector< RWVMItem* >& getRealWorldValueMapping();
/** 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
* FGUnknown) 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 this object, or all compared components match
* but this 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 this object, or all compared components match
* but this component is longer.
*/
virtual int compare(const FGBase& rhs) const;
private:
/* Content of Real World Value Mapping Macro */
/// Items (1-n) of Real World Value Mapping Sequence
OFVector<RWVMItem*> m_Items;
};
/** Class representing the Real World Value Mapping Item Macro:
* Attribute name: (VR, VM, Requirement Type)
* Real World Value First Value Mapped: (US or SS, 1, 1)
* Real World Value Last Value Mapped: (US or SS, 1, 1)
* Real World Value Intercept: (FD, 1, 1C)
* Real World Value Slope: (FD, 1, 1C)
* Real World Value LUT Data (FD, 1-n, 1C)
* LUT Explanation (LO, 1, 1)
* LUT Label (SH, 1, 1)
* Measurement Units Code Sequence (SQ, 1, 1)
* Not yet supported: Quantity Definition Sequence (SQ, 1, 3)
*/
class DCMTK_DCMFG_EXPORT FGRealWorldValueMapping::RWVMItem : public IODComponent
{
public:
/** Constructor
* @param item The item to be used for data storage. If NULL, the
* class creates an empty data container.
* @param rules The rule set for this class. If NULL, the class creates
* one from scratch and adds its values.
* @param parent The parent of the IOD component (NULL if none or unknown)
*/
RWVMItem(OFshared_ptr<DcmItem> item,
OFshared_ptr<IODRules> rules,
IODComponent* parent = NULL);
/** Constructor
* @param parent The parent of the IOD component (NULL if none or unknown)
*/
RWVMItem(IODComponent* parent = NULL);
/** Clone this class (perform deep copy)
* @return Clone of this class or NULL (e.g.\ if memory exhausted)
*/
RWVMItem* clone();
/** Virtual destructor, frees memory
*/
virtual ~RWVMItem();
/** Resets rules to their original values
*/
virtual void resetRules();
/** Get name of component
* @return Name of the module
*/
virtual OFString getName() 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
* FGUnknown) 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 this object, or all compared components match
* but this 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 this object, or all compared components match
* but this component is longer.
*/
virtual int compare(const IODComponent& rhs) const;
/** Read attributes from given item into this class
* @param source The source to read from
* @param clearOldData If OFTrue, old data is cleared before reading.
* Otherwise old data is overwritten (or amended)
* @result EC_Normal if reading was successful, error otherwise
*/
virtual OFCondition read(DcmItem& source,
const OFBool clearOldData = OFTrue);
/** Write attributes from this class into given item
* @param destination The item to write to
* @result EC_Normal if writing was successful, error otherwise
*/
virtual OFCondition write(DcmItem& destination);
// --- get() functionality ---
/** Get Real World Value First Value Mapped
* @param value Reference to variable in which the value should be stored
* @param pos Index of the value to get (0..vm-1)
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition getRealWorldValueFirstValueMapped(Sint32& value,
const unsigned long pos = 0) const;
/** Get Real World Value First Value Mapped
* @param value Reference to variable in which the value should be stored
* @param pos Index of the value to get (0..vm-1)
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition getRealWorldValueLastValueMapped(Sint32 &value,
const unsigned long pos = 0) const;
/** Get Real World Value LUT Data
* @param value Reference to variable in which the value should be stored
* @param pos Index of the value to get (0..vm-1)
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition getRealWorldValueLUTData(Float64 &value,
const unsigned long pos = 0) const;
/** Get Real World Value LUT Data
* @param values Reference to variable in which the values should be stored
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition getRealWorldValueLUTData(OFVector<Float64>& values) const;
/** Get LUT Explanation
* @param value Reference to variable in which the value should be stored
* @param pos Index of the value to get (0..vm-1)
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition getLUTExplanation(OFString &value,
const signed long pos = 0) const;
/** Get LUT Label
* @param value Reference to variable in which the value should be stored
* @param pos Index of the value to get (0..vm-1)
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition getLUTLabel(OFString &value,
const signed long pos = 0) const;
/** Get Measurement Units Code Sequence (content)
* @return Reference to Measurement Units Code
*/
virtual CodeSequenceMacro& getMeasurementUnitsCode();
// --- set() functionality ---
/** Set Real World Value First Value Mapped
* @param value Value to be set. If Pixel Representation is 0 (unsigned
* pixel data) value must be 0 < value < 2^16. Otherwise use
* setRealWorldValueFirstValueMappedSigned().
* @param checkValue Check 'value' for conformance with VR (US and VM (1)
* if enabled
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueFirstValueMappedUnsigned(const Uint16 &value,
const OFBool checkValue = OFTrue);
/** Set Real World Value First Value Mapped
* @param value Value to be set. If Pixel Representation is -1 (signed
* pixel data) value must be -2^15 < value < 2^15-1. Otherwise use
* setRealWorldValueFirstValueMappedUnSigned().
* @param checkValue Check 'value'. Not evaluated (here for consistency
* with other setter functions).
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueFirstValueMappeSigned(const Sint16 &value,
const OFBool checkValue = OFTrue);
/** Set Real World Value Last Value Mapped
* @param value Value to be set. If Pixel Representation is 0 (unsigned
* pixel data) value must be 0 < value < 2^16. Otherwise use
* setRealWorldValueLastValueMappedSigned().
* @param checkValue Check 'value' for conformance with VR (US and VM (1)
* if enabled
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueLastValueMappedUnsigned(const Uint16 &value,
const OFBool checkValue = OFTrue);
/** Set Real World Value Last Value Mapped
* @param value Value to be set. If Pixel Representation is -1 (signed
* pixel data) value must be -2^15 < value < 2^15-1. Otherwise use
* setRealWorldValueLastValueMappedUnSigned().
* @param checkValue Check 'value'. Not evaluated (here for consistency
* with other setter functions).
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueLastValueMappedSigned(const Sint16 &value,
const OFBool checkValue = OFTrue);
/** Set Real World Value Intercept
* @param value Value to be set
* @param checkValue Check 'value'. Not evaluated (here for consistency
* with other setter functions).
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueIntercept(const Float64& value,
const OFBool checkValue = OFTrue);
/** Set Real World Value Slope
* @param value Value to be set
* @param checkValue Check 'value'. Not evaluated (here for consistency
* with other setter functions).
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueSlope(const Float64& value,
const OFBool checkValue = OFTrue);
/** Set Real World Value LUT Data
* @param value Values to be set
* @param checkValue Check 'value' for conformance with VR (FD) and VM (1-n) if enabled
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setRealWorldValueLUTData(const OFVector<Float64>& value,
const OFBool checkValue = OFTrue);
/** Set LUT Explanation
* @param value Value to be set
* @param checkValue Check 'value' for conformance with VR (LO) and VM (1) if enabled
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setLUTExplanation(const OFString &value,
const OFBool checkValue = OFTrue);
/** Set LUT Label
* @param value Value to be set
* @param checkValue Check 'value' for conformance with VR (SH) and VM (1) if enabled
* @return EC_Normal if successful, an error code otherwise
*/
virtual OFCondition setLUTLabel(const OFString &value,
const OFBool checkValue = OFTrue);
protected:
static OFCondition getUSorSS(DcmItem& item,
const DcmTagKey& key,
const unsigned long pos,
Sint32& value);
private:
/// The name of this module ("RealWorldValueMappingItemMacro")
static const OFString m_ModuleName;
/// Measurement Units Code Sequence
CodeSequenceMacro m_MeasurementUnitsCode;
/// TODO Content Item Macro for Quantity Definition Sequence
};
#endif // FGREALWORLDVALUEMAPPING_H
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