/* * * Copyright (C) 2000-2019, 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: DSRTimeTreeNode * */ #include "dcmtk/config/osconfig.h" /* make sure OS specific configuration is included first */ #include "dcmtk/dcmsr/dsrtypes.h" #include "dcmtk/dcmsr/dsrtimtn.h" #include "dcmtk/dcmsr/dsrxmld.h" #include "dcmtk/dcmdata/dcdeftag.h" #include "dcmtk/dcmdata/dcvrtm.h" DSRTimeTreeNode::DSRTimeTreeNode(const E_RelationshipType relationshipType) : DSRDocumentTreeNode(relationshipType, VT_Time), DSRStringValue() { } DSRTimeTreeNode::DSRTimeTreeNode(const E_RelationshipType relationshipType, const OFString &timeValue, const OFBool check) : DSRDocumentTreeNode(relationshipType, VT_Time), DSRStringValue(timeValue, check) { } DSRTimeTreeNode::DSRTimeTreeNode(const DSRTimeTreeNode &node) : DSRDocumentTreeNode(node), DSRStringValue(node) { } DSRTimeTreeNode::~DSRTimeTreeNode() { } OFBool DSRTimeTreeNode::operator==(const DSRDocumentTreeNode &node) const { /* call comparison operator of base class (includes check of value type) */ OFBool result = DSRDocumentTreeNode::operator==(node); if (result) { /* it's safe to cast the type since the value type has already been checked */ result = DSRStringValue::operator==(OFstatic_cast(const DSRTimeTreeNode &, node).getValue()); } return result; } OFBool DSRTimeTreeNode::operator!=(const DSRDocumentTreeNode &node) const { /* call comparison operator of base class (includes check of value type) */ OFBool result = DSRDocumentTreeNode::operator!=(node); if (!result) { /* it's safe to cast the type since the value type has already been checked */ result = DSRStringValue::operator!=(OFstatic_cast(const DSRTimeTreeNode &, node).getValue()); } return result; } DSRTimeTreeNode *DSRTimeTreeNode::clone() const { return new DSRTimeTreeNode(*this); } void DSRTimeTreeNode::clear() { DSRDocumentTreeNode::clear(); DSRStringValue::clear(); } OFBool DSRTimeTreeNode::isValid() const { /* ConceptNameCodeSequence required */ return DSRDocumentTreeNode::isValid() && getConceptName().isValid() && hasValidValue(); } OFBool DSRTimeTreeNode::hasValidValue() const { return checkCurrentValue().good(); } OFCondition DSRTimeTreeNode::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) DSRStringValue::print(stream); } return result; } OFCondition DSRTimeTreeNode::writeXML(STD_NAMESPACE ostream &stream, const size_t flags) const { OFString tmpString; OFCondition result = EC_Normal; writeXMLItemStart(stream, flags); result = DSRDocumentTreeNode::writeXML(stream, flags); /* output time in ISO 8601 format */ DcmTime::getISOFormattedTimeFromString(getValue(), tmpString); writeStringValueToXML(stream, tmpString, "value", (flags & XF_writeEmptyTags) > 0); writeXMLItemEnd(stream, flags); return result; } OFCondition DSRTimeTreeNode::readContentItem(DcmItem &dataset, const size_t flags) { /* read Time */ return DSRStringValue::read(dataset, DCM_Time, flags); } OFCondition DSRTimeTreeNode::writeContentItem(DcmItem &dataset) const { /* write Time */ return DSRStringValue::write(dataset, DCM_Time); } OFCondition DSRTimeTreeNode::readXMLContentItem(const DSRXMLDocument &doc, DSRXMLCursor cursor, const size_t /*flags*/) { OFString tmpString; /* retrieve value from XML element "value" */ OFCondition result = setValue(getValueFromXMLNodeContent(doc, doc.getNamedChildNode(cursor, "value"), tmpString)); if (result == EC_IllegalParameter) result = SR_EC_InvalidValue; return result; } OFString &DSRTimeTreeNode::getValueFromXMLNodeContent(const DSRXMLDocument &doc, DSRXMLCursor cursor, OFString &timeValue, const OFBool clearString) { if (clearString) timeValue.clear(); /* check whether node is valid */ if (cursor.valid()) { OFString tmpString; /* retrieve value from XML element */ if (!doc.getStringFromNodeContent(cursor, tmpString).empty()) { OFTime tmpTime; /* convert ISO to DICOM format */ if (tmpTime.setISOFormattedTime(tmpString)) DcmTime::getDicomTimeFromOFTime(tmpTime, timeValue); } } return timeValue; } OFCondition DSRTimeTreeNode::renderHTMLContentItem(STD_NAMESPACE ostream &docStream, STD_NAMESPACE ostream & /*annexStream*/, const size_t /*nestingLevel*/, size_t & /*annexNumber*/, const size_t flags) const { /* render ConceptName */ OFCondition result = renderHTMLConceptName(docStream, flags); /* render Time */ if (result.good()) { OFString htmlString; if (!(flags & DSRTypes::HF_renderItemsSeparately)) { if (flags & DSRTypes::HF_XHTML11Compatibility) docStream << ""; else if (flags & DSRTypes::HF_HTML32Compatibility) docStream << ""; else /* HTML 4.01 */ docStream << ""; } docStream << dicomToReadableTime(getValue(), htmlString); if (!(flags & DSRTypes::HF_renderItemsSeparately)) { if (flags & DSRTypes::HF_HTML32Compatibility) docStream << ""; else docStream << ""; } docStream << OFendl; } return result; } OFCondition DSRTimeTreeNode::checkValue(const OFString &timeValue) const { /* first, make sure that the mandatory value is non-empty */ OFCondition result = DSRStringValue::checkValue(timeValue); /* then, check whether the passed value is valid */ if (result.good()) result = DcmTime::checkStringValue(timeValue, "1"); return result; }