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#include <MonitorXMLParser.h>
Public Member Functions | |
| const std::vector< DB_ME > & | getDB_ME (void) const |
| void | load () throw ( std::runtime_error ) |
| MonitorXMLParser (const std::string &fromFile) | |
| ~MonitorXMLParser () throw () | |
Private Member Functions | |
| void | handleElement (xercesc::DOMElement *element) |
Private Attributes | |
| std::vector< DB_ME > | DBMonitoringElements_ |
| xercesc::XercesDOMParser * | parser_ |
| TagNames * | tags_ |
| std::string | xmlFile_ |
Definition at line 162 of file MonitorXMLParser.h.
| MonitorXMLParser::MonitorXMLParser | ( | const std::string & | fromFile | ) |
Definition at line 21 of file MonitorXMLParser.cc.
References dtNoiseDBValidation_cfg::cerr, alignCSCRings::e, ERROR_XERCES_INIT, cmsRelvalreport::exit, python::rootplot::argparse::message, parser_, cmsPerfSuiteHarvest::release, tags_, and xmlFile_.
{
try{
xercesc::XMLPlatformUtils::Initialize();
}catch( xercesc::XMLException& e ){
char* message = xercesc::XMLString::transcode( e.getMessage() ) ;
std::cerr << "XML toolkit initialization error: " << message << std::endl;
xercesc::XMLString::release( &message );
exit( ERROR_XERCES_INIT );
}
xmlFile_ = fromFile;
parser_ = new xercesc::XercesDOMParser();
tags_ = new TagNames();
}
| MonitorXMLParser::~MonitorXMLParser | ( | ) | throw () |
Definition at line 47 of file MonitorXMLParser.cc.
References dtNoiseDBValidation_cfg::cerr, alignCSCRings::e, python::rootplot::argparse::message, parser_, cmsPerfSuiteHarvest::release, and tags_.
| const std::vector< DB_ME >& MonitorXMLParser::getDB_ME | ( | void | ) | const [inline] |
Definition at line 178 of file MonitorXMLParser.h.
References DBMonitoringElements_.
Referenced by MonitorElementsDb::MonitorElementsDb().
{ return (DBMonitoringElements_ ); }
| void MonitorXMLParser::handleElement | ( | xercesc::DOMElement * | element | ) | [private] |
Definition at line 66 of file MonitorXMLParser.cc.
References DbQuery::alias, DbQuery::arg, TagNames::ATTR_ALIAS, TagNames::ATTR_ARG, TagNames::ATTR_LOOP, TagNames::ATTR_NAME, TagNames::ATTR_NCYCLE, TagNames::ATTR_TITLE, TagNames::ATTR_XBINS, TagNames::ATTR_XFROM, TagNames::ATTR_XTO, TagNames::ATTR_YBINS, TagNames::ATTR_YFROM, TagNames::ATTR_YTO, TagNames::ATTR_ZBINS, TagNames::ATTR_ZFROM, TagNames::ATTR_ZTO, trackerHits::c, DBMonitoringElements_, alignCSCRings::e, DB_ME::loop, DB_ME::ncycle, DB_ME::queries, DbQuery::query, cmsPerfSuiteHarvest::release, alignCSCRings::s, TagNames::TAG_1D, TagNames::TAG_2D, TagNames::TAG_ME, TagNames::TAG_QUERY, TagNames::TAG_TPROFILE, TagNames::TAG_TPROFILE2D, tags_, DB_ME::title, DB_ME::type, DB_ME::xbins, DB_ME::xfrom, DB_ME::xto, DB_ME::ybins, DB_ME::yfrom, DB_ME::yto, DB_ME::zbins, DB_ME::zfrom, and DB_ME::zto.
Referenced by load().
{
if( xercesc::XMLString::equals( tags_->TAG_ME, element->getTagName() ) ) {
char* c;
std::stringstream s;
DB_ME me;
bool meok;
meok = false;
xercesc::DOMNodeList* d1Nodes = element->getElementsByTagName( tags_->TAG_1D );
const XMLSize_t d1Count = d1Nodes->getLength();
for( XMLSize_t d1Index = 0; d1Index < d1Count; ++d1Index ){
xercesc::DOMNode* d1Node = d1Nodes->item( d1Index ) ;
xercesc::DOMElement* d1Element = dynamic_cast< xercesc::DOMElement* >( d1Node ) ;
const XMLCh* d1titleXMLCh = d1Element->getAttribute( tags_->ATTR_TITLE ) ;
c = xercesc::XMLString::transcode( d1titleXMLCh );
me.type = "th1d";
me.title = c;
meok = true;
xercesc::XMLString::release( &c );
const XMLCh* d1xbinsXMLCh = d1Element->getAttribute( tags_->ATTR_XBINS ) ;
c = xercesc::XMLString::transcode( d1xbinsXMLCh );
s.clear(); s.str( c );
s >> me.xbins;
xercesc::XMLString::release( &c );
const XMLCh* d1xfromXMLCh = d1Element->getAttribute( tags_->ATTR_XFROM ) ;
c = xercesc::XMLString::transcode( d1xfromXMLCh );
s.clear(); s.str( c );
s >> me.xfrom;
xercesc::XMLString::release( &c );
const XMLCh* d1xtoXMLCh = d1Element->getAttribute( tags_->ATTR_XTO ) ;
c = xercesc::XMLString::transcode( d1xtoXMLCh );
s.clear(); s.str( c );
s >> me.xto;
xercesc::XMLString::release( &c );
const XMLCh* d1ncycleXMLCh = d1Element->getAttribute( tags_->ATTR_NCYCLE ) ;
c = xercesc::XMLString::transcode( d1ncycleXMLCh );
s.clear(); s.str( c );
s >> me.ncycle;
xercesc::XMLString::release( &c );
const XMLCh* d1loopXMLCh = d1Element->getAttribute( tags_->ATTR_LOOP ) ;
c = xercesc::XMLString::transcode( d1loopXMLCh );
s.clear(); s.str( c );
s >> me.loop;
xercesc::XMLString::release( &c );
me.ybins = 0;
me.yfrom = 0.0;
me.yto = 0.0;
me.zbins = 0;
me.zfrom = 0.0;
me.zto = 0.0;
}
xercesc::DOMNodeList* d2Nodes = element->getElementsByTagName( tags_->TAG_2D );
const XMLSize_t d2Count = d2Nodes->getLength();
for( XMLSize_t d2Index = 0; d2Index < d2Count; ++d2Index ){
xercesc::DOMNode* d2Node = d2Nodes->item( d2Index ) ;
xercesc::DOMElement* d2Element = dynamic_cast< xercesc::DOMElement* >( d2Node ) ;
const XMLCh* d2titleXMLCh = d2Element->getAttribute( tags_->ATTR_TITLE ) ;
c = xercesc::XMLString::transcode( d2titleXMLCh );
me.type = "th2d";
me.title = c;
meok = true;
xercesc::XMLString::release( &c );
const XMLCh* d2xbinsXMLCh = d2Element->getAttribute( tags_->ATTR_XBINS ) ;
c = xercesc::XMLString::transcode( d2xbinsXMLCh );
s.clear(); s.str( c );
s >> me.xbins;
xercesc::XMLString::release( &c );
const XMLCh* d2xfromXMLCh = d2Element->getAttribute( tags_->ATTR_XFROM ) ;
c = xercesc::XMLString::transcode( d2xfromXMLCh );
s.clear(); s.str( c );
s >> me.xfrom;
xercesc::XMLString::release( &c );
const XMLCh* d2xtoXMLCh = d2Element->getAttribute( tags_->ATTR_XTO ) ;
c = xercesc::XMLString::transcode( d2xtoXMLCh );
s.clear(); s.str( c );
s >> me.xto;
xercesc::XMLString::release( &c );
const XMLCh* d2ybinsXMLCh = d2Element->getAttribute( tags_->ATTR_YBINS ) ;
c = xercesc::XMLString::transcode( d2ybinsXMLCh );
s.clear(); s.str( c );
s >> me.ybins;
xercesc::XMLString::release( &c );
const XMLCh* d2yfromXMLCh = d2Element->getAttribute( tags_->ATTR_YFROM ) ;
c = xercesc::XMLString::transcode( d2yfromXMLCh );
s.clear(); s.str( c );
s >> me.yfrom;
xercesc::XMLString::release( &c );
const XMLCh* d2ytoXMLCh = d2Element->getAttribute( tags_->ATTR_YTO ) ;
c = xercesc::XMLString::transcode( d2ytoXMLCh );
s.clear(); s.str( c );
s >> me.yto;
xercesc::XMLString::release( &c );
const XMLCh* d2ncycleXMLCh = d2Element->getAttribute( tags_->ATTR_NCYCLE ) ;
c = xercesc::XMLString::transcode( d2ncycleXMLCh );
s.clear(); s.str( c );
s >> me.ncycle;
xercesc::XMLString::release( &c );
const XMLCh* d2loopXMLCh = d2Element->getAttribute( tags_->ATTR_LOOP ) ;
c = xercesc::XMLString::transcode( d2loopXMLCh );
s.clear(); s.str( c );
s >> me.loop;
xercesc::XMLString::release( &c );
me.zbins = 0;
me.zfrom = 0.0;
me.zto = 0.0;
}
xercesc::DOMNodeList* tpNodes = element->getElementsByTagName( tags_->TAG_TPROFILE );
const XMLSize_t tpCount = tpNodes->getLength();
for( XMLSize_t tpIndex = 0; tpIndex < tpCount; ++tpIndex ){
xercesc::DOMNode* tpNode = tpNodes->item( tpIndex ) ;
xercesc::DOMElement* tpElement = dynamic_cast< xercesc::DOMElement* >( tpNode ) ;
const XMLCh* tptitleXMLCh = tpElement->getAttribute( tags_->ATTR_TITLE ) ;
c = xercesc::XMLString::transcode( tptitleXMLCh );
me.type = "tprofile";
me.title = c;
meok = true;
xercesc::XMLString::release( &c );
const XMLCh* tpxbinsXMLCh = tpElement->getAttribute( tags_->ATTR_XBINS ) ;
c = xercesc::XMLString::transcode( tpxbinsXMLCh );
s.clear(); s.str( c );
s >> me.xbins;
xercesc::XMLString::release( &c );
const XMLCh* tpxfromXMLCh = tpElement->getAttribute( tags_->ATTR_XFROM ) ;
c = xercesc::XMLString::transcode( tpxfromXMLCh );
s.clear(); s.str( c );
s >> me.xfrom;
xercesc::XMLString::release( &c );
const XMLCh* tpxtoXMLCh = tpElement->getAttribute( tags_->ATTR_XTO ) ;
c = xercesc::XMLString::transcode( tpxtoXMLCh );
s.clear(); s.str( c );
s >> me.xto;
xercesc::XMLString::release( &c );
const XMLCh* tpybinsXMLCh = tpElement->getAttribute( tags_->ATTR_YBINS ) ;
c = xercesc::XMLString::transcode( tpybinsXMLCh );
s.clear(); s.str( c );
s >> me.ybins;
xercesc::XMLString::release( &c );
const XMLCh* tpyfromXMLCh = tpElement->getAttribute( tags_->ATTR_YFROM ) ;
c = xercesc::XMLString::transcode( tpyfromXMLCh );
s.clear(); s.str( c );
s >> me.yfrom;
xercesc::XMLString::release( &c );
const XMLCh* tpytoXMLCh = tpElement->getAttribute( tags_->ATTR_YTO ) ;
c = xercesc::XMLString::transcode( tpytoXMLCh );
s.clear(); s.str( c );
s >> me.yto;
xercesc::XMLString::release( &c );
const XMLCh* tpncycleXMLCh = tpElement->getAttribute( tags_->ATTR_NCYCLE ) ;
c = xercesc::XMLString::transcode( tpncycleXMLCh );
s.clear(); s.str( c );
s >> me.ncycle;
xercesc::XMLString::release( &c );
const XMLCh* tploopXMLCh = tpElement->getAttribute( tags_->ATTR_LOOP ) ;
c = xercesc::XMLString::transcode( tploopXMLCh );
s.clear(); s.str( c );
s >> me.loop;
xercesc::XMLString::release( &c );
me.zbins = 0;
me.zfrom = 0.0;
me.zto = 0.0;
}
xercesc::DOMNodeList* tp2dNodes = element->getElementsByTagName( tags_->TAG_TPROFILE2D );
const XMLSize_t tp2dCount = tp2dNodes->getLength();
for( XMLSize_t tp2dIndex = 0; tp2dIndex < tp2dCount; ++tp2dIndex ){
xercesc::DOMNode* tp2dNode = tp2dNodes->item( tp2dIndex ) ;
xercesc::DOMElement* tp2dElement = dynamic_cast< xercesc::DOMElement* >( tp2dNode ) ;
const XMLCh* tp2dtitleXMLCh = tp2dElement->getAttribute( tags_->ATTR_TITLE ) ;
c = xercesc::XMLString::transcode( tp2dtitleXMLCh );
me.type = "tprofile2d";
me.title = c;
meok = true;
xercesc::XMLString::release( &c );
const XMLCh* tp2dxbinsXMLCh = tp2dElement->getAttribute( tags_->ATTR_XBINS ) ;
c = xercesc::XMLString::transcode( tp2dxbinsXMLCh );
s.clear(); s.str( c );
s >> me.xbins;
xercesc::XMLString::release( &c );
const XMLCh* tp2dxfromXMLCh = tp2dElement->getAttribute( tags_->ATTR_XFROM ) ;
c = xercesc::XMLString::transcode( tp2dxfromXMLCh );
s.clear(); s.str( c );
s >> me.xfrom;
xercesc::XMLString::release( &c );
const XMLCh* tp2dxtoXMLCh = tp2dElement->getAttribute( tags_->ATTR_XTO ) ;
c = xercesc::XMLString::transcode( tp2dxtoXMLCh );
s.clear(); s.str( c );
s >> me.xto;
xercesc::XMLString::release( &c );
const XMLCh* tp2dybinsXMLCh = tp2dElement->getAttribute( tags_->ATTR_YBINS ) ;
c = xercesc::XMLString::transcode( tp2dybinsXMLCh );
s.clear(); s.str( c );
s >> me.ybins;
xercesc::XMLString::release( &c );
const XMLCh* tp2dyfromXMLCh = tp2dElement->getAttribute( tags_->ATTR_YFROM ) ;
c = xercesc::XMLString::transcode( tp2dyfromXMLCh );
s.clear(); s.str( c );
s >> me.yfrom;
xercesc::XMLString::release( &c );
const XMLCh* tp2dytoXMLCh = tp2dElement->getAttribute( tags_->ATTR_YTO ) ;
c = xercesc::XMLString::transcode( tp2dytoXMLCh );
s.clear(); s.str( c );
s >> me.yto;
xercesc::XMLString::release( &c );
const XMLCh* tp2dzbinsXMLCh = tp2dElement->getAttribute( tags_->ATTR_ZBINS ) ;
c = xercesc::XMLString::transcode( tp2dzbinsXMLCh );
s.clear(); s.str( c );
s >> me.zbins;
xercesc::XMLString::release( &c );
const XMLCh* tp2dzfromXMLCh = tp2dElement->getAttribute( tags_->ATTR_ZFROM ) ;
c = xercesc::XMLString::transcode( tp2dzfromXMLCh );
s.clear(); s.str( c );
s >> me.zfrom;
xercesc::XMLString::release( &c );
const XMLCh* tp2dztoXMLCh = tp2dElement->getAttribute( tags_->ATTR_ZTO ) ;
c = xercesc::XMLString::transcode( tp2dztoXMLCh );
s.clear(); s.str( c );
s >> me.zto;
xercesc::XMLString::release( &c );
const XMLCh* tp2dncycleXMLCh = tp2dElement->getAttribute( tags_->ATTR_NCYCLE ) ;
c = xercesc::XMLString::transcode( tp2dncycleXMLCh );
s.clear(); s.str( c );
s >> me.ncycle;
xercesc::XMLString::release( &c );
const XMLCh* tp2dloopXMLCh = tp2dElement->getAttribute( tags_->ATTR_LOOP ) ;
c = xercesc::XMLString::transcode( tp2dloopXMLCh );
s.clear(); s.str( c );
s >> me.loop;
xercesc::XMLString::release( &c );
}
xercesc::DOMNodeList* qNodes = element->getElementsByTagName( tags_->TAG_QUERY );
const XMLSize_t qCount = qNodes->getLength();
for( XMLSize_t qIndex = 0; qIndex < qCount; ++qIndex ){
xercesc::DOMNode* qNode = qNodes->item( qIndex ) ;
xercesc::DOMElement* qElement = dynamic_cast< xercesc::DOMElement* >( qNode ) ;
const XMLCh* nameXMLCh = qElement->getAttribute( tags_->ATTR_NAME ) ;
c = xercesc::XMLString::transcode( nameXMLCh );
const XMLCh* argXMLCh = qElement->getAttribute( tags_->ATTR_ARG ) ;
char* d = xercesc::XMLString::transcode( argXMLCh );
const XMLCh* aliasXMLCh = qElement->getAttribute( tags_->ATTR_ALIAS ) ;
char* e = xercesc::XMLString::transcode( aliasXMLCh );
DbQuery tmpQuery;
tmpQuery.query = c;
tmpQuery.arg = d;
tmpQuery.alias = e;
me.queries.push_back( tmpQuery );
xercesc::XMLString::release( &c );
xercesc::XMLString::release( &d );
xercesc::XMLString::release( &e );
}
if( meok ) DBMonitoringElements_.push_back( me );
}
} // handleElement()
| void MonitorXMLParser::load | ( | ) | throw ( std::runtime_error ) |
Definition at line 397 of file MonitorXMLParser.cc.
References alignCSCRings::e, handleElement(), python::rootplot::argparse::message, NULL, parser_, cmsPerfSuiteHarvest::release, TagNames::TAG_DBE, tags_, and xmlFile_.
Referenced by MonitorElementsDb::MonitorElementsDb().
{
parser_->setValidationScheme( xercesc::XercesDOMParser::Val_Never );
parser_->setDoNamespaces( false );
parser_->setDoSchema( false );
parser_->setLoadExternalDTD( false );
try{
parser_->parse( xmlFile_.c_str() );
xercesc::DOMDocument* xmlDoc = parser_->getDocument();
xercesc::DOMElement* dbe = xmlDoc->getDocumentElement();
if( NULL == dbe ){
throw( std::runtime_error( "empty XML document" ) ) ;
}
if( xercesc::XMLString::equals( tags_->TAG_DBE, dbe->getTagName() ) ) {
xercesc::DOMNodeList* children = dbe->getChildNodes();
const XMLSize_t nodeCount = children->getLength();
for( XMLSize_t ix = 0 ; ix < nodeCount ; ++ix ){
xercesc::DOMNode* currentNode = children->item( ix );
if( NULL == currentNode ){
// null node...
continue;
}
if( xercesc::DOMNode::ELEMENT_NODE != currentNode->getNodeType() ){
continue;
}
xercesc::DOMElement* currentElement = dynamic_cast< xercesc::DOMElement* >( currentNode );
handleElement( currentElement );
}
}
}catch( xercesc::XMLException& e ){
char* message = xercesc::XMLString::transcode( e.getMessage() );
std::ostringstream buf ;
buf << "Error parsing file: " << message << std::endl;
xercesc::XMLString::release( &message );
throw( std::runtime_error( buf.str() ) );
}catch( const xercesc::DOMException& e ){
char* message = xercesc::XMLString::transcode( e.getMessage() );
std::ostringstream buf;
buf << "Encountered DOM Exception: " << message << std::endl;
xercesc::XMLString::release( &message );
throw( std::runtime_error( buf.str() ) );
}
return;
} // load()
std::vector< DB_ME > MonitorXMLParser::DBMonitoringElements_ [private] |
Definition at line 166 of file MonitorXMLParser.h.
Referenced by getDB_ME(), and handleElement().
xercesc::XercesDOMParser* MonitorXMLParser::parser_ [private] |
Definition at line 168 of file MonitorXMLParser.h.
Referenced by load(), MonitorXMLParser(), and ~MonitorXMLParser().
TagNames* MonitorXMLParser::tags_ [private] |
Definition at line 169 of file MonitorXMLParser.h.
Referenced by handleElement(), load(), MonitorXMLParser(), and ~MonitorXMLParser().
std::string MonitorXMLParser::xmlFile_ [private] |
Definition at line 167 of file MonitorXMLParser.h.
Referenced by load(), and MonitorXMLParser().
1.7.3