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/*
*
* Copyright (C) 2000-2024, OFFIS e.V.
* All rights reserved. See COPYRIGHT file for details.
*
* This software and supporting documentation were developed by
*
* OFFIS e.V.
* R&D Division Health
* Escherweg 2
* D-26121 Oldenburg, Germany
*
*
* Module: dcmsr
*
* Author: Joerg Riesmeier
*
* Purpose:
* classes: DSRContainerTreeNode
*
*/
#include "dcmtk/config/osconfig.h" /* make sure OS specific configuration is included first */
#include "dcmtk/dcmsr/dsrtypes.h"
#include "dcmtk/dcmsr/dsrcontn.h"
#include "dcmtk/dcmsr/dsrxmld.h"
#include "dcmtk/dcmdata/dcdeftag.h"
DSRContainerTreeNode::DSRContainerTreeNode(const E_RelationshipType relationshipType,
const E_ContinuityOfContent continuityOfContent)
: DSRDocumentTreeNode(relationshipType, VT_Container),
ContinuityOfContent(continuityOfContent)
{
}
DSRContainerTreeNode::DSRContainerTreeNode(const DSRContainerTreeNode &node)
: DSRDocumentTreeNode(node),
ContinuityOfContent(node.ContinuityOfContent)
{
}
DSRContainerTreeNode::~DSRContainerTreeNode()
{
}
DSRContainerTreeNode *DSRContainerTreeNode::clone() const
{
return new DSRContainerTreeNode(*this);
}
void DSRContainerTreeNode::clear()
{
ContinuityOfContent = COC_Separate; // this is more useful than COC_invalid
}
OFBool DSRContainerTreeNode::isEqual(const DSRDocumentTreeNode &node) const
{
/* call comparison operator of base class (includes check of value type) */
OFBool result = DSRDocumentTreeNode::isEqual(node);
if (result)
{
/* it's safe to cast the type since the value type has already been checked */
result = (ContinuityOfContent == OFstatic_cast(const DSRContainerTreeNode &, node).ContinuityOfContent);
}
return result;
}
OFBool DSRContainerTreeNode::isNotEqual(const DSRDocumentTreeNode &node) const
{
/* call comparison operator of base class (includes check of value type) */
OFBool result = DSRDocumentTreeNode::isNotEqual(node);
if (!result)
{
/* it's safe to cast the type since the value type has already been checked */
result = (ContinuityOfContent != OFstatic_cast(const DSRContainerTreeNode &, node).ContinuityOfContent);
}
return result;
}
OFBool DSRContainerTreeNode::isValid() const
{
/* ConceptNameCodeSequence required for root node container */
return DSRDocumentTreeNode::isValid() && hasValidValue() &&
((getRelationshipType() != RT_isRoot) || getConceptName().isValid());
}
OFBool DSRContainerTreeNode::hasValidValue() const
{
return (ContinuityOfContent != COC_invalid);
}
OFBool DSRContainerTreeNode::isShort(const size_t /*flags*/) const
{
return OFFalse;
}
OFCondition DSRContainerTreeNode::print(STD_NAMESPACE ostream &stream,
const size_t flags) const
{
OFCondition result = DSRDocumentTreeNode::print(stream, flags);
if (result.good())
{
DCMSR_PRINT_ANSI_ESCAPE_CODE(DCMSR_ANSI_ESCAPE_CODE_DELIMITER)
stream << "=";
DCMSR_PRINT_ANSI_ESCAPE_CODE(DCMSR_ANSI_ESCAPE_CODE_ITEM_VALUE)
stream << continuityOfContentToEnumeratedValue(ContinuityOfContent);
}
return result;
}
OFCondition DSRContainerTreeNode::readContentItem(DcmItem &dataset,
const size_t /*flags*/)
{
OFString tmpString;
/* read ContinuityOfContent */
OFCondition result = getAndCheckStringValueFromDataset(dataset, DCM_ContinuityOfContent, tmpString, "1", "1", "CONTAINER content item");
if (result.good())
{
ContinuityOfContent = enumeratedValueToContinuityOfContent(tmpString);
/* check ContinuityOfContent value */
if (ContinuityOfContent == COC_invalid)
{
printUnknownValueWarningMessage("ContinuityOfContent value", tmpString.c_str());
result = SR_EC_InvalidValue;
}
}
return result;
}
OFCondition DSRContainerTreeNode::writeContentItem(DcmItem &dataset) const
{
/* write ContinuityOfContent */
return putStringValueToDataset(dataset, DCM_ContinuityOfContent, continuityOfContentToEnumeratedValue(ContinuityOfContent));
}
OFCondition DSRContainerTreeNode::readXMLContentItem(const DSRXMLDocument &doc,
DSRXMLCursor cursor,
const size_t /*flags*/)
{
OFCondition result = SR_EC_CorruptedXMLStructure;
if (cursor.valid())
{
OFString tmpString;
/* read 'flag' and check validity */
ContinuityOfContent = enumeratedValueToContinuityOfContent(doc.getStringFromAttribute(cursor, tmpString, "flag"));
if (ContinuityOfContent == COC_invalid)
{
printUnknownValueWarningMessage("CONTAINER flag", tmpString.c_str());
result = SR_EC_InvalidValue;
} else
result = EC_Normal;
}
return result;
}
OFCondition DSRContainerTreeNode::writeXML(STD_NAMESPACE ostream &stream,
const size_t flags) const
{
OFCondition result = EC_Normal;
writeXMLItemStart(stream, flags, OFFalse /*closingBracket*/);
stream << " flag=\"" << continuityOfContentToEnumeratedValue(ContinuityOfContent) << "\"";
stream << ">" << OFendl;
result = DSRDocumentTreeNode::writeXML(stream, flags);
writeXMLItemEnd(stream, flags);
return result;
}
OFCondition DSRContainerTreeNode::renderHTMLContentItem(STD_NAMESPACE ostream &docStream,
STD_NAMESPACE ostream & /*annexStream*/,
const size_t nestingLevel,
size_t & /*annexNumber*/,
const size_t flags) const
{
/* section heading (optional) */
if (nestingLevel > 0)
{
/* render ConceptName & Code (if valid) */
if (!getConceptName().getCodeMeaning().empty())
{
const size_t section = (nestingLevel > 6) ? 6 : nestingLevel;
docStream << "<h" << section << ">";
getConceptName().renderHTML(docStream, flags, (flags & HF_renderConceptNameCodes) && getConceptName().isValid() /*fullCode*/);
docStream << "</h" << section << ">" << OFendl;
}
/* render optional observation date/time */
if (!getObservationDateTime().empty())
{
OFString tmpString;
docStream << "<p>" << OFendl;
if (flags & HF_XHTML11Compatibility)
docStream << "<span class=\"observe\">";
else
docStream << "<small>";
docStream << "(observed: " << dicomToReadableDateTime(getObservationDateTime(), tmpString) << ")";
if (flags & HF_XHTML11Compatibility)
docStream << "</span>" << OFendl;
else
docStream << "</small>" << OFendl;
docStream << "</p>" << OFendl;
}
}
return EC_Normal;
}
OFCondition DSRContainerTreeNode::renderHTML(STD_NAMESPACE ostream &docStream,
STD_NAMESPACE ostream &annexStream,
const size_t nestingLevel,
size_t &annexNumber,
const size_t flags,
const char *urlPrefix) const
{
/* check for validity */
if (!isValid())
printInvalidContentItemMessage("Rendering", this);
/* render content item */
OFCondition result = renderHTMLContentItem(docStream, annexStream, nestingLevel, annexNumber, flags);
if (result.good())
{
/* section body: render child nodes */
if (ContinuityOfContent == COC_Continuous)
result = renderHTMLChildNodes(docStream, annexStream, nestingLevel, annexNumber, flags & ~HF_renderItemsSeparately, urlPrefix);
else // might be invalid
result = renderHTMLChildNodes(docStream, annexStream, nestingLevel, annexNumber, flags | HF_renderItemsSeparately, urlPrefix);
} else
printContentItemErrorMessage("Rendering", result, this);
return result;
}
OFCondition DSRContainerTreeNode::setContinuityOfContent(const E_ContinuityOfContent continuityOfContent,
const OFBool /*check*/)
{
OFCondition result = EC_IllegalParameter;
/* check whether the passed value is valid */
if (continuityOfContent != COC_invalid)
{
ContinuityOfContent = continuityOfContent;
result = EC_Normal;
}
return result;
}
// comparison operators
OFBool operator==(const DSRContainerTreeNode &lhs,
const DSRContainerTreeNode &rhs)
{
return lhs.isEqual(rhs);
}
OFBool operator!=(const DSRContainerTreeNode &lhs,
const DSRContainerTreeNode &rhs)
{
return lhs.isNotEqual(rhs);
}
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