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#include <iostream>
#include <sstream>
#include <fstream>
#include <xercesc/dom/DOMNode.hpp>
#include <xercesc/dom/DOM.hpp>
#include <xercesc/parsers/XercesDOMParser.hpp>
#include "Utilities/Xerces/interface/Xerces.h"
#include "Utilities/Xerces/interface/XercesStrUtils.h"
#include <xercesc/util/XMLString.hpp>
#include <xercesc/sax/SAXException.hpp>
#include <xercesc/framework/LocalFileFormatTarget.hpp>
#include "CondFormats/EcalObjects/interface/EcalPulseShapes.h"
#include "CondTools/Ecal/interface/EcalPulseShapesXMLTranslator.h"
#include "CondTools/Ecal/interface/DOMHelperFunctions.h"
#include "CondTools/Ecal/interface/XMLTags.h"
using namespace XERCES_CPP_NAMESPACE;
using namespace xuti;
using namespace std;
int EcalPulseShapesXMLTranslator::readXML(const std::string& filename,
EcalCondHeader& header,
EcalPulseShapes& record) {
cms::concurrency::xercesInitialize();
XercesDOMParser* parser = new XercesDOMParser;
parser->setValidationScheme(XercesDOMParser::Val_Never);
parser->setDoNamespaces(false);
parser->setDoSchema(false);
parser->parse(filename.c_str());
DOMDocument* xmlDoc = parser->getDocument();
if (!xmlDoc) {
std::cout << "EcalPulseShapesXMLTranslator::Error parsing document" << std::endl;
return -1;
}
DOMElement* elementRoot = xmlDoc->getDocumentElement();
xuti::readHeader(elementRoot, header);
DOMNode* cellnode = getChildNode(elementRoot, Cell_tag);
int chan = 0;
while (cellnode) {
// std::cout << " Channel " << chan << std::endl;
float samples[EcalPulseShape::TEMPLATESAMPLES];
DetId detid = readCellId(dynamic_cast<DOMElement*>(cellnode));
// std::cout << " readCell Id Channel " << chan << " tag " << mean12_tag << std::endl;
DOMNode* sample0_node = getChildNode(cellnode, sample0_tag);
GetNodeData(sample0_node, samples[0]);
// std::cout << " tag " << sample0_tag << " sample0 " << sample0 << std::endl;
DOMNode* sample1_node = getChildNode(cellnode, sample1_tag);
GetNodeData(sample1_node, samples[1]);
// std::cout << " tag " << sample1_tag << " sample1 " << sample1 << std::endl;
DOMNode* sample2_node = getChildNode(cellnode, sample2_tag);
GetNodeData(sample2_node, samples[2]);
// std::cout << " tag " << sample2_tag << " sample2 " << sample2 << std::endl;
DOMNode* sample3_node = getChildNode(cellnode, sample3_tag);
GetNodeData(sample3_node, samples[3]);
// std::cout << " tag " << sample3_tag << " sample3 " << sample3 << std::endl;
DOMNode* sample4_node = getChildNode(cellnode, sample4_tag);
GetNodeData(sample4_node, samples[4]);
// std::cout << " tag " << sample4_tag << " sample4 " << sample4 << std::endl;
DOMNode* sample5_node = getChildNode(cellnode, sample5_tag);
GetNodeData(sample5_node, samples[5]);
// std::cout << " tag " << sample5_tag << " sample5 " << sample5 << std::endl;
DOMNode* sample6_node = getChildNode(cellnode, sample6_tag);
GetNodeData(sample6_node, samples[6]);
// std::cout << " tag " << sample6_tag << " sample6 " << sample6 << std::endl;
DOMNode* sample7_node = getChildNode(cellnode, sample7_tag);
GetNodeData(sample7_node, samples[7]);
// std::cout << " tag " << sample7_tag << " sample7 " << sample7 << std::endl;
DOMNode* sample8_node = getChildNode(cellnode, sample8_tag);
GetNodeData(sample8_node, samples[8]);
// std::cout << " tag " << sample8_tag << " sample8 " << sample8 << std::endl;
DOMNode* sample9_node = getChildNode(cellnode, sample9_tag);
GetNodeData(sample9_node, samples[9]);
// std::cout << " tag " << sample9_tag << " sample9 " << sample9 << std::endl;
DOMNode* sample10_node = getChildNode(cellnode, sample10_tag);
GetNodeData(sample10_node, samples[10]);
// std::cout << " tag " << sample10_tag << " sample10 " << sample10 << std::endl;
DOMNode* sample11_node = getChildNode(cellnode, sample11_tag);
GetNodeData(sample11_node, samples[11]);
// std::cout << " tag " << sample11_tag << " sample11 " << sample11 << std::endl;
for (int s = 0; s < EcalPulseShape::TEMPLATESAMPLES; ++s)
record[detid].pdfval[s] = samples[s];
cellnode = cellnode->getNextSibling();
while (cellnode && cellnode->getNodeType() != DOMNode::ELEMENT_NODE)
cellnode = cellnode->getNextSibling();
chan++;
}
delete parser;
cms::concurrency::xercesTerminate();
std::cout << " nb of channels found in xml file " << chan << std::endl;
return 0;
}
int EcalPulseShapesXMLTranslator::writeXML(const std::string& filename,
const EcalCondHeader& header,
const EcalPulseShapes& record) {
cms::concurrency::xercesInitialize();
std::fstream fs(filename.c_str(), ios::out);
fs << dumpXML(header, record);
cms::concurrency::xercesTerminate();
return 0;
}
std::string EcalPulseShapesXMLTranslator::dumpXML(const EcalCondHeader& header, const EcalPulseShapes& record) {
unique_ptr<DOMImplementation> impl(DOMImplementationRegistry::getDOMImplementation(cms::xerces::uStr("LS").ptr()));
DOMLSSerializer* writer = impl->createLSSerializer();
if (writer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
writer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
DOMDocumentType* doctype = impl->createDocumentType(cms::xerces::uStr("XML").ptr(), nullptr, nullptr);
DOMDocument* doc = impl->createDocument(nullptr, cms::xerces::uStr(PulseShapes_tag.c_str()).ptr(), doctype);
DOMElement* root = doc->getDocumentElement();
xuti::writeHeader(root, header);
if (record.barrelItems().empty())
return std::string();
for (int cellid = EBDetId::MIN_HASH; cellid < EBDetId::kSizeForDenseIndexing; ++cellid) {
uint32_t rawid = EBDetId::unhashIndex(cellid);
if (record.find(rawid) == record.end())
continue;
if (!record[rawid].pdfval[5])
continue;
DOMElement* cellnode = writeCell(root, rawid);
WriteNodeWithValue(cellnode, sample0_tag, record[rawid].pdfval[0]);
WriteNodeWithValue(cellnode, sample1_tag, record[rawid].pdfval[1]);
WriteNodeWithValue(cellnode, sample2_tag, record[rawid].pdfval[2]);
WriteNodeWithValue(cellnode, sample3_tag, record[rawid].pdfval[3]);
WriteNodeWithValue(cellnode, sample4_tag, record[rawid].pdfval[4]);
WriteNodeWithValue(cellnode, sample5_tag, record[rawid].pdfval[5]);
WriteNodeWithValue(cellnode, sample6_tag, record[rawid].pdfval[6]);
WriteNodeWithValue(cellnode, sample7_tag, record[rawid].pdfval[7]);
WriteNodeWithValue(cellnode, sample8_tag, record[rawid].pdfval[8]);
WriteNodeWithValue(cellnode, sample9_tag, record[rawid].pdfval[9]);
WriteNodeWithValue(cellnode, sample10_tag, record[rawid].pdfval[10]);
WriteNodeWithValue(cellnode, sample11_tag, record[rawid].pdfval[11]);
}
if (record.endcapItems().empty())
return std::string();
for (int cellid = 0; cellid < EEDetId::kSizeForDenseIndexing; ++cellid) {
if (!EEDetId::validHashIndex(cellid))
continue;
uint32_t rawid = EEDetId::unhashIndex(cellid);
if (record.find(rawid) == record.end())
continue;
if (!record[rawid].pdfval[5])
continue;
DOMElement* cellnode = writeCell(root, rawid);
WriteNodeWithValue(cellnode, sample0_tag, record[rawid].pdfval[0]);
WriteNodeWithValue(cellnode, sample1_tag, record[rawid].pdfval[1]);
WriteNodeWithValue(cellnode, sample2_tag, record[rawid].pdfval[2]);
WriteNodeWithValue(cellnode, sample3_tag, record[rawid].pdfval[3]);
WriteNodeWithValue(cellnode, sample4_tag, record[rawid].pdfval[4]);
WriteNodeWithValue(cellnode, sample5_tag, record[rawid].pdfval[5]);
WriteNodeWithValue(cellnode, sample6_tag, record[rawid].pdfval[6]);
WriteNodeWithValue(cellnode, sample7_tag, record[rawid].pdfval[7]);
WriteNodeWithValue(cellnode, sample8_tag, record[rawid].pdfval[8]);
WriteNodeWithValue(cellnode, sample9_tag, record[rawid].pdfval[9]);
WriteNodeWithValue(cellnode, sample10_tag, record[rawid].pdfval[10]);
WriteNodeWithValue(cellnode, sample11_tag, record[rawid].pdfval[11]);
}
std::string dump = cms::xerces::toString(writer->writeToString(root));
doc->release();
doctype->release();
writer->release();
return dump;
}
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