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/*
*
* Copyright (C) 2016-2024, 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: dcmtract
*
* Author: Michael Onken
*
* Purpose: Statistics from a Tractography Results IOD
*
*/
#include "dcmtk/config/osconfig.h"
#include "dcmtk/dcmiod/iodutil.h"
#include "dcmtk/dcmtract/trcstatistic.h"
#include "dcmtk/dcmtract/trctypes.h"
// ------------------------------ class TrcTStatistic --------------------------
// default constructor (protected, instance creation via create() function)
TrcStatistic::TrcStatistic()
: IODComponent(),
m_Type(),
m_TypeModifier(),
m_Units(),
m_Values()
{
// This is an abstract class so it is enough to call resetRules() is called
// from derived classes
}
void TrcStatistic::resetRules()
{
// Set rules for the attributes within this component
getRules()->addRule(new IODRule(DCM_ConceptNameCodeSequence, "1","1",getName(), DcmIODTypes::IE_INSTANCE), OFTrue);
getRules()->addRule(new IODRule(DCM_ModifierCodeSequence, "1","1", getName(), DcmIODTypes::IE_INSTANCE), OFTrue);
getRules()->addRule(new IODRule(DCM_MeasurementUnitsCodeSequence, "1","1", getName(), DcmIODTypes::IE_INSTANCE), OFTrue);
}
OFCondition TrcStatistic::read(DcmItem& source,
const OFBool clearOldData)
{
if (clearOldData)
this->clearData();
// Read as much as possible. In order to return success at minimum the tracks
// must be readable.
IODComponent::read(source, OFFalse /* we cleared data before */);
DcmIODUtil::readSingleItem(source, DCM_ConceptNameCodeSequence, m_Type, getRules()->getByTag(DCM_ConceptNameCodeSequence));
DcmIODUtil::readSingleItem(source, DCM_MeasurementUnitsCodeSequence, m_Units, getRules()->getByTag(DCM_MeasurementUnitsCodeSequence));
DcmIODUtil::readSingleItem(source, DCM_ModifierCodeSequence, m_TypeModifier, getRules()->getByTag(DCM_ModifierCodeSequence));
return EC_Normal;
}
OFCondition TrcStatistic::write(DcmItem& destination)
{
OFCondition result;
DcmIODUtil::writeSingleItem(result, DCM_ConceptNameCodeSequence, m_Type, getData(), getRules()->getByTag(DCM_ConceptNameCodeSequence));
DcmIODUtil::writeSingleItem(result, DCM_MeasurementUnitsCodeSequence, m_Units, getData(), getRules()->getByTag(DCM_MeasurementUnitsCodeSequence));
DcmIODUtil::writeSingleItem(result, DCM_ModifierCodeSequence, m_TypeModifier, getData(), getRules()->getByTag(DCM_ModifierCodeSequence));
if (result.good()) result = IODComponent::write(destination);
return result;
}
void TrcStatistic::clearData()
{
m_Type.clearData();
m_Units.clearData();
m_TypeModifier.clearData();
IODComponent::clearData();
}
OFCondition TrcStatistic::get(CodeSequenceMacro& typeCode,
CodeSequenceMacro& typeModifierCode,
CodeSequenceMacro& unitsCode)
{
typeCode = m_Type;
typeModifierCode = m_TypeModifier;
unitsCode = m_Units;
return EC_Normal;
}
OFCondition TrcStatistic::setCommon(const CodeSequenceMacro& typeCode,
const CodeSequenceMacro& typeModifierCode,
const CodeSequenceMacro& unitsCode)
{
OFCondition result;
result = OFconst_cast(CodeSequenceMacro*, &typeCode)->check(OFTrue /* quiet */);
if (result.good())
{
m_Type = typeCode;
}
if (result.good())
{
result = OFconst_cast(CodeSequenceMacro*, &typeModifierCode)->check(OFTrue /* quiet */);
if (result.good())
{
m_TypeModifier = typeModifierCode;
}
}
if (result.good())
{
result = OFconst_cast(CodeSequenceMacro*, &unitsCode)->check(OFTrue /* quiet */);
if (result.good())
{
m_Units = unitsCode;
}
}
return result;
}
TrcStatistic::~TrcStatistic()
{
// nothing to do
}
// ----------------------------- class TrcTrackStatistic -----------------------
TrcTracksStatistic::TrcTracksStatistic()
: TrcStatistic()
{
resetRules();
}
TrcTracksStatistic::~TrcTracksStatistic()
{
// nothing to do
}
OFCondition TrcTracksStatistic::create(const CodeSequenceMacro& typeCode,
const CodeSequenceMacro& typeModifierCode,
const CodeSequenceMacro& unitsCode,
const Float32* statisticValues,
const size_t numValues,
TrcTracksStatistic*& statistic)
{
statistic = new TrcTracksStatistic();
if (!statistic)
return EC_MemoryExhausted;
//OFCondition result = OFstatic_cast(TrcStatistic*,statistic)->set(typeCode, typeModifierCode, unitsCode);
OFCondition result = statistic->TrcStatistic::setCommon(typeCode, typeModifierCode, unitsCode);
if (result.good())
{
result = statistic->getData().putAndInsertFloat32Array(DCM_FloatingPointValues, statisticValues, OFstatic_cast(unsigned long, numValues));
if (result.bad())
{
result = TRC_EC_InvalidStatisticData;
}
}
if (result.bad())
{
delete statistic;
statistic = NULL;
}
return result;
}
OFCondition TrcTracksStatistic::read(DcmItem& source,
const OFBool clearOldData)
{
return TrcStatistic::read(source, clearOldData);
}
OFCondition TrcTracksStatistic::write(DcmItem& destination)
{
OFCondition result;
result = TrcStatistic::write(destination);
if (result.good())
{
result = IODComponent::write(destination);
}
return result;
}
OFCondition TrcTracksStatistic::get(CodeSequenceMacro& typeCode,
CodeSequenceMacro& typeModifierCode,
CodeSequenceMacro& unitsCode,
const Float32*& statisticValues,
unsigned long& numValues)
{
OFCondition result = TrcStatistic::get(typeCode, typeModifierCode, unitsCode);
if (result.good())
{
result = m_Item->findAndGetFloat32Array(DCM_FloatingPointValues, statisticValues, &numValues);
}
return result;
}
OFString TrcTracksStatistic::getName() const
{
return "TrackStatisticsSequenceItem";
}
void TrcTracksStatistic::resetRules()
{
TrcStatistic::resetRules();
m_Rules->addRule(new IODRule(DCM_FloatingPointValues, "1","1", getName(), DcmIODTypes::IE_INSTANCE), OFTrue);
}
OFCondition TrcTracksStatistic::set(const CodeSequenceMacro& typeCode,
const CodeSequenceMacro& typeModifierCode,
const CodeSequenceMacro& unitsCode,
const Float32* statisticValues,
const size_t numValues)
{
if ( !statisticValues || (numValues == 0))
{
return TRC_EC_InvalidStatisticData;
}
OFCondition result = TrcStatistic::setCommon(typeCode, typeModifierCode, unitsCode);
if (result.good())
{
result = m_Item->putAndInsertFloat32Array(DCM_FloatingPointValues, statisticValues, OFstatic_cast(unsigned long, numValues));
}
return result;
}
// --------------------------- class TrcTrackSetStatistic ----------------------
TrcTrackSetStatistic::TrcTrackSetStatistic()
: TrcStatistic()
{
resetRules();
}
TrcTrackSetStatistic::~TrcTrackSetStatistic()
{
// nothing to do
}
OFCondition TrcTrackSetStatistic::create(const CodeSequenceMacro& typeCode,
const CodeSequenceMacro& typeModifierCode,
const CodeSequenceMacro& unitsCode,
const Float64 statisticValue,
TrcTrackSetStatistic *&statistic)
{
statistic = new TrcTrackSetStatistic();
if (!statistic)
return EC_MemoryExhausted;
OFCondition result = statistic->set(typeCode, typeModifierCode, unitsCode, statisticValue);
if (result.bad())
{
delete statistic;
statistic = NULL;
}
return result;
}
OFCondition TrcTrackSetStatistic::read(DcmItem& source,
const OFBool clearOldData)
{
OFCondition result = IODComponent::read(source, clearOldData);
if (result.good())
{
TrcStatistic::read(source, clearOldData);
}
return result;
}
OFCondition TrcTrackSetStatistic::write(DcmItem& destination)
{
OFCondition result;
result = TrcStatistic::write(destination);
if (result.good())
{
result = IODComponent::write(destination);
}
return result;
}
OFCondition TrcTrackSetStatistic::get(CodeSequenceMacro& typeCode,
CodeSequenceMacro& typeModifierCode,
CodeSequenceMacro& unitsCode,
Float64& statisticValue)
{
OFCondition result = TrcStatistic::get(typeCode, typeModifierCode, unitsCode);
if (result.good())
{
result = m_Item->findAndGetFloat64(DCM_FloatingPointValue, statisticValue, 0);
if (result.bad())
{
result = TRC_EC_InvalidStatisticData;
}
}
return result;
}
OFString TrcTrackSetStatistic::getName() const
{
return "TrackSetStatisticsSequenceItem";
}
void TrcTrackSetStatistic::resetRules()
{
TrcStatistic::resetRules();
m_Rules->addRule(new IODRule(DCM_FloatingPointValue, "1","1", getName(), DcmIODTypes::IE_INSTANCE), OFTrue);
}
OFCondition TrcTrackSetStatistic::set(const CodeSequenceMacro& typeCode,
const CodeSequenceMacro& typeModifierCode,
const CodeSequenceMacro& unitsCode,
const Float64 statisticValue)
{
OFCondition result = TrcStatistic::setCommon(typeCode, typeModifierCode, unitsCode);
if (result.good())
{
result = m_Item->putAndInsertFloat64(DCM_FloatingPointValue, statisticValue, 0);
if (result.bad())
{
result = TRC_EC_InvalidStatisticData;
}
}
return result;
}
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