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00001 // -*- C++ -*-
00002 //
00003 // Package:     LibraryLoader
00004 // Class  :     RootAutoLibraryLoader
00005 //
00006 // Implementation:
00007 //     <Notes on implementation>
00008 //
00009 // Original Author:
00010 //         Created:  Wed Nov 30 14:55:01 EST 2005
00011 //
00012 
00013 // system include files
00014 #include <string>
00015 #include <iostream>
00016 #include <map>
00017 #include "TROOT.h"
00018 #include "G__ci.h"
00019 #include "boost/regex.hpp"
00020 
00021 // user include files
00022 #include "FWCore/RootAutoLibraryLoader/interface/RootAutoLibraryLoader.h"
00023 #include "FWCore/RootAutoLibraryLoader/src/stdNamespaceAdder.h"
00024 
00025 #include "FWCore/PluginManager/interface/PluginManager.h"
00026 #include "FWCore/Utilities/interface/Exception.h"
00027 #include "FWCore/PluginManager/interface/ProblemTracker.h"
00028 #include "FWCore/PluginManager/interface/PluginCapabilities.h"
00029 
00030 #include "Reflex/Type.h"
00031 #include "Cintex/Cintex.h"
00032 #include "TClass.h"
00033 #include "RVersion.h"
00034 
00035 // We cannot use the MessageLogger here because this is also used by standalones that do not have the logger.
00036 
00037 //
00038 // constants, enums and typedefs
00039 //
00040 namespace {
00041   //Based on https://root.cern.ch/lxr/source/cintex/src/CINTSourceFile.h
00042   // If a Cint dictionary is accidently loaded as a side effect of loading a CMS
00043   // library Cint must have a file name assigned to that dictionary else Cint may crash
00044   class RootLoadFileSentry {
00045   public:
00046     RootLoadFileSentry() {
00047        G__setfilecontext("{CMS auto library loader}", &oldIFile_);
00048     }
00049 
00050     ~RootLoadFileSentry() {
00051       G__input_file* ifile = G__get_ifile();
00052       if (ifile) {
00053         *ifile = oldIFile_;
00054       }
00055     }
00056 
00057   private:
00058       G__input_file oldIFile_;
00059   };
00060 }
00061 
00062 //
00063 // static data member definitions
00064 //
00065 //hold onto the previous autolibrary loader
00066 typedef int (*CallbackPtr)(char*, char*);
00067 static CallbackPtr gPrevious = 0;
00068 static char const* kDummyLibName = "*dummy";
00069 
00070 //This is actually defined within ROOT's v6_struct.cxx file but is not declared static
00071 // I want to use it so that if the autoloading is already turned on, I can call the previously declared routine
00072 extern CallbackPtr G__p_class_autoloading;
00073 
00074 namespace edm {
00075    namespace {
00076 
00077       std::map<std::string, std::string>&
00078       cintToReflexSpecialCasesMap() {
00079          static std::map<std::string, std::string> s_map;
00080          return s_map;
00081       }
00082 
00083       void
00084       addWrapperOfVectorOfBuiltin(std::map<std::string, std::string>& iMap, char const* iBuiltin) {
00085          static std::string sReflexPrefix("edm::Wrapper<std::vector<");
00086          static std::string sReflexPostfix("> >");
00087 
00088          //Wrapper<vector<float, allocator<float> > >
00089          static std::string sCintPrefix("Wrapper<vector<");
00090          static std::string sCintMiddle(",allocator<");
00091          static std::string sCintPostfix("> > >");
00092 
00093          std::string type(iBuiltin);
00094          iMap.insert(make_pair(sCintPrefix + type + sCintMiddle + type + sCintPostfix,
00095                                sReflexPrefix + type + sReflexPostfix));
00096       }
00097 
00098       bool loadLibraryForClass(char const* classname) {
00099         //std::cout << "loadLibaryForClass" << std::endl;
00100         if(0 == classname) {
00101           return false;
00102         }
00103         //std::cout << "asking to find " << classname << std::endl;
00104         static std::string const cPrefix("LCGReflex/");
00105         //std::cout << "asking to find " << cPrefix + classname << std::endl;
00106         try {
00107           //give ROOT a name for the file we are loading
00108           RootLoadFileSentry sentry;
00109           if(edmplugin::PluginCapabilities::get()->tryToLoad(cPrefix + classname)) {
00110             Reflex::Type t = Reflex::Type::ByName(classname);
00111             if (Reflex::Type() == t) {
00112               //would be nice to issue a warning here
00113               return false;
00114             }
00115             if(!t.IsComplete()) {
00116               //would be nice to issue a warning here.  Not sure the remainder of this comment is correct.
00117               // this message happens too often (too many false positives) to be useful plus ROOT will complain about a missing dictionary
00118               //std::cerr << "Warning: Reflex knows about type '" << classname << "' but has no dictionary for it." << std::endl;
00119               return false;
00120             }
00121           } else {
00122             //see if adding a std namespace helps
00123             std::string name = root::stdNamespaceAdder(classname);
00124             //std::cout << "see if std helps" << std::endl;
00125             if (not edmplugin::PluginCapabilities::get()->tryToLoad(cPrefix + name)) {
00126               // Too many false positives on built-in types here.
00127               return false;
00128             }
00129             Reflex::Type t = Reflex::Type::ByName(name);
00130             if (Reflex::Type() == t) {
00131               t = Reflex::Type::ByName(classname);
00132               if (Reflex::Type() == t) {
00133                 //would be nice to issue a warning here
00134                 return false;
00135               }
00136             }
00137           }
00138         } catch(cms::Exception& e) {
00139           //would be nice to issue a warning here
00140           return false;
00141         }
00142         //std::cout << "loaded " << classname << std::endl;
00143         return true;
00144       }
00145 
00146       //Based on code in ROOT's TCint.cxx file
00147 
00148       int ALL_AutoLoadCallback(char* c, char* l) {
00149         //NOTE: if the library (i.e. 'l') is an empty string this means we are dealing with a namespace
00150         // These checks appear to avoid a crash of ROOT during shutdown of the application
00151         if(0 == c || 0 == l || l[0] == 0) {
00152           return 0;
00153         }
00154         ULong_t varp = G__getgvp();
00155         G__setgvp((long)G__PVOID);
00156         int result = loadLibraryForClass(c) ? 1:0;
00157         G__setgvp(varp);
00158         //NOTE: the check for the library is done since we can have a failure
00159         // if a CMS library has an incomplete set of Reflex dictionaries where
00160         // the remaining dictionaries can be found by Cint.  If the library with
00161         // the Reflex dictionaries is loaded first, then the Cint library then any
00162         // requests for a Reflex::Type from the Reflex library will fail because for
00163         // some reason the loading of the Cint library causes Reflex to forget about
00164         // what types it already loaded from the Reflex library.  This problem was
00165         // seen for libDataFormatsMath and libMathCore.  I do not print an error message
00166         // since the dictionaries are actually loaded so things work fine.
00167         if(!result && 0 != strcmp(l, kDummyLibName) && gPrevious) {
00168           result = gPrevious(c, l);
00169         }
00170         return result;
00171       }
00172 
00173       std::string
00174       classNameForRoot(std::string const& iCapName) {
00175         //need to remove any 'std::' since ROOT ignores it
00176         static boost::regex const ex("std::");
00177         std::string const to("");
00178 
00179         return regex_replace(iCapName, ex, to, boost::match_default | boost::format_sed);
00180       }
00181 
00182       //Cint requires that we register the type and library containing the type
00183       // before the autoloading will work
00184         struct CompareFirst {
00185           bool operator()(std::pair<std::string, std::string> const& iLHS,
00186                           std::pair<std::string, std::string> const& iRHS) const{
00187             return iLHS.first > iRHS.first;
00188           }
00189         };
00190 
00191       void registerTypes() {
00192         edmplugin::PluginManager* db =  edmplugin::PluginManager::get();
00193 
00194         typedef edmplugin::PluginManager::CategoryToInfos CatToInfos;
00195 
00196         CatToInfos::const_iterator itFound = db->categoryToInfos().find("Capability");
00197 
00198         if(itFound == db->categoryToInfos().end()) {
00199           return;
00200         }
00201 
00202         //in order to determine if a name is from a class or a namespace, we will order
00203         // all the classes in descending order so that embedded classes will be seen before
00204         // their containing classes, that way we can say the containing class is a namespace
00205         // before finding out it is actually a class
00206         typedef std::vector<std::pair<std::string, std::string> > ClassAndLibraries;
00207         ClassAndLibraries classes;
00208         classes.reserve(1000);
00209         std::string lastClass;
00210 
00211         //find where special cases come from
00212         std::map<std::string, std::string> specialsToLib;
00213         std::map<std::string, std::string> const& specials = cintToReflexSpecialCasesMap();
00214         for(std::map<std::string, std::string>::const_iterator itSpecial = specials.begin();
00215             itSpecial != specials.end();
00216             ++itSpecial) {
00217           specialsToLib[classNameForRoot(itSpecial->second)];
00218         }
00219         static std::string const cPrefix("LCGReflex/");
00220         for (edmplugin::PluginManager::Infos::const_iterator itInfo = itFound->second.begin(),
00221              itInfoEnd = itFound->second.end();
00222              itInfo != itInfoEnd; ++itInfo) {
00223           if (lastClass == itInfo->name_) {
00224             continue;
00225           }
00226           lastClass = itInfo->name_;
00227           if(cPrefix == lastClass.substr(0, cPrefix.size())) {
00228             std::string className = classNameForRoot(lastClass.c_str() + cPrefix.size());
00229             classes.push_back(std::pair<std::string, std::string>(className, itInfo->loadable_.native_file_string()));
00230             std::map<std::string, std::string>::iterator itFound = specialsToLib.find(className);
00231             if(itFound != specialsToLib.end()) {
00232               // std::cout << "Found " << lastClass << " : " << className << std::endl;
00233               itFound->second = itInfo->loadable_.native_file_string();
00234             }
00235           }
00236         }
00237         //sort_all(classes, std::greater<std::string>());
00238         //sort_all(classes, CompareFirst());
00239         //the values are already sorted by less, so just need to reverse to get greater
00240         for(ClassAndLibraries::reverse_iterator itClass = classes.rbegin(), itClassEnd = classes.rend();
00241             itClass != itClassEnd;
00242             ++itClass) {
00243 
00244           std::string const& className = itClass->first;
00245           std::string const& libraryName = itClass->second;
00246           //need to register namespaces and figure out if we have an embedded class
00247           static std::string const toFind(":<");
00248           std::string::size_type pos = 0;
00249           while(std::string::npos != (pos = className.find_first_of(toFind, pos))) {
00250             if (className[pos] == '<') {break;}
00251             if (className.size() <= pos + 1 || className[pos + 1] != ':') {break;}
00252             //should check to see if this is a class or not
00253             G__set_class_autoloading_table(const_cast<char*>(className.substr(0, pos).c_str()), const_cast<char*>(""));
00254             //std::cout << "namespace " << className.substr(0, pos).c_str() << std::endl;
00255             pos += 2;
00256           }
00257           G__set_class_autoloading_table(const_cast<char*>(className.c_str()), const_cast<char*>(libraryName.c_str()));
00258           //std::cout << "class " << className.c_str() << std::endl;
00259         }
00260 
00261         //now handle the special cases
00262         for(std::map<std::string, std::string>::const_iterator itSpecial = specials.begin();
00263             itSpecial != specials.end();
00264             ++itSpecial) {
00265           //std::cout << "registering special " << itSpecial->first << " " << itSpecial->second << " " << std::endl << "    " << specialsToLib[classNameForRoot(itSpecial->second)] << std::endl;
00266           //force loading of specials
00267           if(specialsToLib[classNameForRoot(itSpecial->second)].size()) {
00268             //std::cout << "&&&&& found special case " << itSpecial->first << std::endl;
00269             std::string name = itSpecial->second;
00270             Reflex::Type t = Reflex::Type::ByName(name);
00271 
00272             if((Reflex::Type() == t) and
00273                 (not edmplugin::PluginCapabilities::get()->tryToLoad(cPrefix + name))) {
00274               std::cout << "failed to load plugin for " << cPrefix + name << std::endl;
00275               continue;
00276             } else {
00277               //need to construct the Class ourselves
00278               Reflex::Type t = Reflex::Type::ByName(name);
00279               if(Reflex::Type() == t) {
00280                 std::cout << "reflex did not build " << name << std::endl;
00281                 continue;
00282               }
00283               TClass* reflexNamedClass = TClass::GetClass(t.TypeInfo());
00284               if(0 == reflexNamedClass) {
00285                 std::cout << "failed to get TClass by typeid for " << name << std::endl;
00286                 continue;
00287               }
00288               reflexNamedClass->Clone(itSpecial->first.c_str());
00289               std::string magictypedef("namespace edm { typedef ");
00290               magictypedef += classNameForRoot(name) + " " + itSpecial->first + "; }";
00291               // std::cout << "Magic typedef " << magictypedef << std::endl;
00292               gROOT->ProcessLine(magictypedef.c_str());
00293             }
00294           }
00295         }
00296       }
00297    }
00298 
00299    //
00300    // constructors and destructor
00301    //
00302    RootAutoLibraryLoader::RootAutoLibraryLoader() :
00303 #if ROOT_VERSION_CODE >= ROOT_VERSION(5,27,6)
00304      classNameAttemptingToLoad_(0),
00305      isInitializingCintex_(true) {
00306 #else
00307      classNameAttemptingToLoad_(0) {
00308 #endif
00309       AssertHandler h;
00310       gROOT->AddClassGenerator(this);
00311       ROOT::Cintex::Cintex::Enable();
00312 #if ROOT_VERSION_CODE >= ROOT_VERSION(5,27,6)
00313       isInitializingCintex_ =false;
00314 #endif
00315       //set the special cases
00316       std::map<std::string, std::string>& specials = cintToReflexSpecialCasesMap();
00317       if(specials.empty()) {
00318          addWrapperOfVectorOfBuiltin(specials,"bool");
00319 
00320          addWrapperOfVectorOfBuiltin(specials,"char");
00321          addWrapperOfVectorOfBuiltin(specials,"unsigned char");
00322          addWrapperOfVectorOfBuiltin(specials,"signed char");
00323          addWrapperOfVectorOfBuiltin(specials,"short");
00324          addWrapperOfVectorOfBuiltin(specials,"unsigned short");
00325          addWrapperOfVectorOfBuiltin(specials,"int");
00326          addWrapperOfVectorOfBuiltin(specials,"unsigned int");
00327          addWrapperOfVectorOfBuiltin(specials,"long");
00328          addWrapperOfVectorOfBuiltin(specials,"unsigned long");
00329          addWrapperOfVectorOfBuiltin(specials,"long long");
00330          addWrapperOfVectorOfBuiltin(specials,"unsigned long long");
00331 
00332          addWrapperOfVectorOfBuiltin(specials,"float");
00333          addWrapperOfVectorOfBuiltin(specials,"double");
00334       }
00335       //std::cout << "my loader" << std::endl;
00336       //remember if the callback was already set so we can chain together our results
00337       gPrevious = G__p_class_autoloading;
00338       G__set_class_autoloading_callback(&ALL_AutoLoadCallback);
00339       registerTypes();
00340    }
00341 
00342    //
00343    // member functions
00344    //
00345 
00346    TClass*
00347    RootAutoLibraryLoader::GetClass(char const* classname, Bool_t load) {
00348       TClass* returnValue = 0;
00349       if(classNameAttemptingToLoad_ != 0 && !strcmp(classname, classNameAttemptingToLoad_)) {
00350          // We can try to see if the class name contains "basic_string<char>".
00351          // If so, we replace "basic_string<char>" with "string" and try again.
00352          std::string className(classname);
00353          std::string::size_type idx = className.find("basic_string<char>");
00354          if (idx != std::string::npos) {
00355             className.replace(idx, 18, std::string("string"));
00356             //if basic_string<char> was the last argument to a templated class
00357             // then there would be an extra space to separate the two '>'
00358             if(className.size() > idx + 6 && className[idx + 6] == ' ') {
00359               className.replace(idx + 6, 1, "");
00360             }
00361             classNameAttemptingToLoad_ = className.c_str();
00362             returnValue = gROOT->GetClass(className.c_str(), kTRUE);
00363             classNameAttemptingToLoad_ = classname;
00364             return returnValue;
00365          }
00366          //NOTE: As of ROOT 5.27.06 this warning generates false positives for HepMC classes because
00367          // ROOT has special handling for them built into class.rules
00368          //std::cerr << "WARNING[RootAutoLibraryLoader]: Reflex failed to create CINT dictionary for " << classname << std::endl;
00369          return 0;
00370       }
00371       //std::cout << "looking for " << classname << " load " << (load? "T":"F") << std::endl;
00372       if (load) {
00373         //std::cout << " going to call loadLibraryForClass" << std::endl;
00374         //[ROOT 5.28] When Cintex is in its 'Enable' method it will register callbacks to build
00375         // TClasses. During this phase we do not want to actually force TClasses to have to 
00376         // come into existence.
00377 #if ROOT_VERSION_CODE >= ROOT_VERSION(5,27,6)
00378         if (loadLibraryForClass(classname) and not isInitializingCintex_) {
00379 #else
00380          if (loadLibraryForClass(classname)) {
00381 #endif
00382           //use this to check for infinite recursion attempt
00383           classNameAttemptingToLoad_ = classname;
00384           // This next call will create the TClass object for the class.
00385           // It will also attempt to load the dictionary for the class
00386           // if the second argument is kTRUE. This is the default, so it
00387           // need not be explicitly specified.
00388           returnValue = gROOT->GetClass(classname, kTRUE);
00389           classNameAttemptingToLoad_ = 0;
00390         }
00391       }
00392       return returnValue;
00393    }
00394 
00395    TClass*
00396    RootAutoLibraryLoader::GetClass(type_info const& typeinfo, Bool_t load) {
00397      //std::cout << "looking for type " << typeinfo.name() << std::endl;
00398       TClass* returnValue = 0;
00399       if(load) {
00400          return GetClass(typeinfo.name(), load);
00401       }
00402       return returnValue;
00403    }
00404 
00405    void
00406    RootAutoLibraryLoader::enable() {
00407       //static BareRootProductGetter s_getter;
00408       //static EDProductGetter::Operate s_op(&s_getter);
00409       static RootAutoLibraryLoader s_loader;
00410    }
00411 
00412    void
00413    RootAutoLibraryLoader::loadAll() {
00414      // std::cout << "LoadAllDictionaries" << std::endl;
00415      enable();
00416 
00417      edmplugin::PluginManager* db =  edmplugin::PluginManager::get();
00418 
00419      typedef edmplugin::PluginManager::CategoryToInfos CatToInfos;
00420 
00421      CatToInfos::const_iterator itFound = db->categoryToInfos().find("Capability");
00422 
00423      if(itFound == db->categoryToInfos().end()) {
00424        return;
00425      }
00426      std::string lastClass;
00427      std::string const cPrefix("LCGReflex/");
00428 
00429      //give ROOT a name for the file we are loading
00430      RootLoadFileSentry sentry;
00431 
00432      for (edmplugin::PluginManager::Infos::const_iterator itInfo = itFound->second.begin(),
00433           itInfoEnd = itFound->second.end();
00434           itInfo != itInfoEnd; ++itInfo) {
00435        if (lastClass == itInfo->name_) {
00436          continue;
00437        }
00438 
00439        lastClass = itInfo->name_;
00440        edmplugin::PluginCapabilities::get()->load(lastClass);
00441        //NOTE: since we have the library already, we could be more efficient if we just load it ourselves
00442      }
00443    }
00444 }
00445 
00446 //ClassImp(RootAutoLibraryLoader)