#include <iosfwd>
#include <vector>
#include <string>
#include <map>
#include "DetectorDescription/Core/interface/DDName.h"
#include "DetectorDescription/Core/interface/DDBase.h"
#include "DetectorDescription/Core/interface/DDEnums.h"
#include "DetectorDescription/Base/interface/Singleton.h"
#include "DetectorDescription/Core/interface/DDsvalues.h"
Go to the source code of this file.
Classes | |
class | DDLogicalPart |
A DDLogicalPart aggregates information concerning material, solid and sensitveness ... More... | |
Namespaces | |
namespace | DDI |
A DDDivision contains the parameterization that Geant4 needs in order to do its divisions. | |
Typedefs | |
typedef DDI::Singleton < std::map< std::string, std::vector< DDName > > > | LPNAMES |
Functions | |
void | DD_NC (const DDName &) |
std::pair< bool, std::string > | DDIsValid (const std::string &ns, const std::string &name, std::vector< DDLogicalPart > &result, bool doRegex=true) |
std::ostream & | operator<< (std::ostream &, const DDLogicalPart &) |
typedef DDI::Singleton<std::map<std::string, std::vector<DDName> > > LPNAMES |
Definition at line 135 of file DDLogicalPart.h.
void DD_NC | ( | const DDName & | ) |
Definition at line 9 of file DDLogicalPart.cc.
References DDI::Singleton< I >::instance(), DDName::name(), DDName::ns(), and AlCaHLTBitMon_ParallelJobs::p.
Referenced by DDLogicalPart::DDLogicalPart().
std::pair<bool, std::string> DDIsValid | ( | const std::string & | ns, |
const std::string & | name, | ||
std::vector< DDLogicalPart > & | result, | ||
bool | doRegex = true |
||
) |
Definition at line 311 of file DDLogicalPart.cc.
References begin, end, i, DDI::Singleton< I >::instance(), python::rootplot::argparse::message, and ntuplemaker::status.
Referenced by DDI::Specific::createPartSelections().
{ if( !doRegex ) { DDName ddnm( nm, ns ); result.push_back( DDLogicalPart( ddnm )); return std::make_pair( true, "" ); } std::string status; Regex aRegex( nm ); Regex aNsRegex( ns ); bool emptyNs = aNsRegex.empty(); // THIS IS THE SLOW PART: I have to compare every namespace & name of every // logical part with a regex-comparison .... a linear search always through the // full range of logical parts!!!! /* Algorithm description: x. empty nm and ns argument of method means: use all matching regex ^.*$ a. iterate over all logical part names, match against regex for names b. iterate over all namespaces of names found in a & match against regex for namespaces */ LPNAMES::value_type::const_iterator bn(LPNAMES::instance().begin()), ed(LPNAMES::instance().end()); typedef std::vector< LPNAMES::value_type::const_iterator> Candidates; Candidates candidates; if ( aRegex.notRegex() ) { LPNAMES::value_type::const_iterator it = LPNAMES::instance().find(aRegex.value()); if (it!=ed) candidates.push_back(it); } else { if ( !aRegex.range().first.empty()) { bn = LPNAMES::instance().lower_bound(aRegex.range().first); ed = LPNAMES::instance().upper_bound(aRegex.range().second); } for (LPNAMES::value_type::const_iterator it=bn; it != ed; ++it) if(aRegex.match(it->first)) candidates.push_back(it); } for (int i=0; i<int(candidates.size()); ++i) { LPNAMES::value_type::const_iterator it = candidates[i]; //if (doit) edm::LogInfo("DDLogicalPart") << "rgx: " << aName << ' ' << it->first << ' ' << doit << std::endl; std::vector<DDName>::size_type sz = it->second.size(); // no of 'compatible' namespaces if ( emptyNs && (sz==1) ) { // accept all logical parts in all the namespaces result.push_back(it->second[0]); //std::vector<DDName>::const_iterator nsIt(it->second.begin()), nsEd(it->second.end()); //for(; nsIt != nsEd; ++nsIt) { // result.push_back(DDLogicalPart(*nsIt)); // edm::LogInfo("DDLogicalPart") << "DDD-WARNING: multiple namespaces match (in SpecPars PartSelector): " << *nsIt << std::endl; //} } else if ( !emptyNs ) { // only accept matching namespaces std::vector<DDName>::const_iterator nsit(it->second.begin()), nsed(it->second.end()); for (; nsit !=nsed; ++nsit) { //edm::LogInfo("DDLogicalPart") << "comparing " << aNs << " with " << *nsit << std::endl; bool another_doit = aNsRegex.match(nsit->ns()); if ( another_doit ) { //temp.push_back(std::make_pair(it->first,*nsit)); result.push_back(DDLogicalPart(*nsit)); } } } else { // emtpyNs and sz>1 -> error, too ambigous std::string message = "DDLogicalPart-name \"" + it->first +"\" matching regex \"" + nm + "\" has been found at least in following namespaces:\n"; std::vector<DDName>::const_iterator vit = it->second.begin(); for(; vit != it->second.end(); ++vit) { message += vit->ns(); message += " "; } message += "\nQualify the name with a regexp for the namespace, i.e \".*:name-regexp\" !"; return std::make_pair(false,message); } } bool flag=true; std::string message; // check whether the found logical-parts are also defined (i.e. have material, solid ...) if (result.size()) { std::vector<DDLogicalPart>::const_iterator lpit(result.begin()), lped(result.end()); for (; lpit != lped; ++lpit) { // std::cout << "VI- " << std::string(lpit->name()) << std::endl; if (!lpit->isDefined().second) { message = message + "LogicalPart " + lpit->name().fullname() + " not (yet) defined!\n"; flag = false; } } } else { flag = false; message = "No regex-match for namespace=" + ns + " name=" + nm + "\n"; } return std::make_pair(flag,message); }
std::ostream& operator<< | ( | std::ostream & | , |
const DDLogicalPart & | |||
) |
Definition at line 29 of file DDLogicalPart.cc.
References DDBase< N, C >::isDefined(), and DDBase< N, C >::rep().
{ DDBase<DDName,DDI::LogicalPart*>::def_type defined( part.isDefined()); if( defined.first ) { os << *(defined.first) << " "; if( defined.second ) { part.rep().stream( os ); } else { os << "* logicalpart not defined * "; } } else { os << "* logicalpart not declared * "; } return os; }