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CMSSW_4_4_3_patch1/src/DataFormats/Common/interface/RefToBaseProd.h

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00001 #ifndef DataFormats_Common_RefToBaseProd_h
00002 #define DataFormats_Common_RefToBaseProd_h
00003 
00004 /* \class edm::RefToBaseProd<T>
00005  *
00006  * \author Luca Lista, INFN
00007  *
00008  */
00009 #include "DataFormats/Common/interface/CMS_CLASS_VERSION.h"
00010 
00011 #include "DataFormats/Common/interface/WrapperHolder.h"
00012 #include "DataFormats/Common/interface/EDProductfwd.h"
00013 #include "DataFormats/Common/interface/RefCore.h"
00014 #include "DataFormats/Provenance/interface/ProductID.h"
00015 #include "DataFormats/Common/interface/ConstPtrCache.h"
00016 
00017 namespace edm {
00018   template<typename T> class View;
00019   template<typename C> class Handle;
00020 
00021   template<typename T>
00022   class RefToBaseProd {
00023   public:
00024     typedef View<T> product_type;
00025 
00027     RefToBaseProd() : product_(){}
00028 
00030     // The templating is artificial.
00031     // HandleC must have the following methods:
00032     //   id(),      returning a ProductID,
00033    //   product(), returning a C*.
00034     template<class HandleC>
00035     explicit RefToBaseProd(HandleC const& handle);
00036     explicit RefToBaseProd(Handle<View<T> > const& handle);
00038     template<typename C, typename F>
00039     explicit RefToBaseProd(Ref<C, T, F> const& ref);
00040     explicit RefToBaseProd(RefToBase<T> const& ref);
00041     explicit RefToBaseProd(const View<T>&);
00042     RefToBaseProd(const RefToBaseProd<T>&);
00043     template<typename C>
00044     RefToBaseProd(const RefProd<C>&);
00045 
00047     ~RefToBaseProd() { delete viewPtr();}
00048 
00050     product_type const&  operator*() const;
00051 
00053     product_type const* operator->() const;
00054 
00057     product_type const* get() const {
00058       return isNull() ? 0 : this->operator->();
00059     }
00060 
00063     product_type const* product() const {
00064       return isNull() ? 0 : this->operator->();
00065     }
00066 
00068     bool isNull() const {return !isNonnull(); }
00069 
00071     bool isNonnull() const {return id().isValid(); }
00072 
00074     bool operator!() const {return isNull(); }
00075 
00077     ProductID id() const {return product_.id();}
00078 
00080     EDProductGetter const* productGetter() const {return product_.productGetter();}
00081 
00083     bool hasCache() const {return product_.productPtr() != 0;}
00084 
00085     RefToBaseProd<T>& operator=(const RefToBaseProd<T>& other);
00086 
00087     void swap(RefToBaseProd<T>&);
00088 
00089     //Needed for ROOT storage
00090     CMS_CLASS_VERSION(10)
00091   private:
00092     //NOTE: Access to RefCore should be private since we modify the use of productPtr
00093     RefCore const& refCore() const {
00094       return product_;
00095     }
00096     
00097     View<T> const* viewPtr() const {
00098       return reinterpret_cast<const View<T>*>(product_.productPtr());
00099     }
00100     //needs to be mutable so we can modify the 'productPtr' it holds
00101     // so that 'productPtr' can hold our View
00102     mutable RefCore product_;
00103   };
00104 }
00105 
00106 #include "DataFormats/Common/interface/View.h"
00107 #include "DataFormats/Common/interface/Handle.h"
00108 #include "DataFormats/Common/interface/Ref.h"
00109 #include "DataFormats/Common/interface/RefCoreGet.h"
00110 #include "DataFormats/Common/interface/RefVectorHolder.h"
00111 #include "DataFormats/Common/interface/RefVector.h"
00112 #include "DataFormats/Common/interface/RefTraits.h"
00113 
00114 namespace edm {
00115 
00116   namespace refhelper {
00117     template<typename C,
00118              typename T = typename refhelper::ValueTrait<C>::value,
00119              typename F = typename refhelper::FindTrait<C, T>::value>
00120     struct RefToBaseProdTrait {
00121       typedef RefVector<C, T, F> ref_vector_type;
00122     };
00123 
00124     template<typename C, typename T, typename F, typename T1, typename F1>
00125     struct RefToBaseProdTrait<RefVector<C, T, F>, T1, F1> {
00126       typedef RefVector<C, T, F> ref_vector_type;
00127     };
00128   }
00129 
00130   template<typename T>
00131   inline
00132   RefToBaseProd<T>::RefToBaseProd(Handle<View<T> > const& handle) :
00133     product_(handle->id(), 0, handle->productGetter(), false){
00134     product_.setProductPtr(new View<T>(* handle));
00135     assert(handle->productGetter() == 0);
00136   }
00137 
00138   template<typename T>
00139   inline
00140   RefToBaseProd<T>::RefToBaseProd(const View<T>& view) :
00141     product_(view.id(), 0, view.productGetter(), false) {
00142       product_.setProductPtr(new View<T>(view));
00143   }
00144 
00145   template<typename T>
00146   inline
00147   RefToBaseProd<T>::RefToBaseProd(const RefToBaseProd<T>& ref) :
00148     product_(ref.product_) {
00149       product_.setProductPtr(ref.viewPtr() ? (new View<T>(* ref)) : 0);
00150   }
00151 
00152   template<typename T>
00153   inline
00154   RefToBaseProd<T>& RefToBaseProd<T>::operator=(const RefToBaseProd<T>& other) {
00155     RefToBaseProd<T> temp(other);
00156     this->swap(temp);
00157     return *this;
00158   }
00159 
00161   template<typename T>
00162   inline
00163   View<T> const& RefToBaseProd<T>::operator*() const {
00164     return * operator->();
00165   }
00166 
00168   template<typename T>
00169   inline
00170   View<T> const* RefToBaseProd<T>::operator->() const {
00171     if(product_.productPtr() == 0) {
00172       if(product_.isNull()) {
00173         Exception::throwThis(errors::InvalidReference,
00174           "attempting get view from a null RefToBaseProd.\n");
00175       }
00176       ProductID tId = product_.id();
00177       std::vector<void const*> pointers;
00178       helper_vector_ptr helpers;
00179       WrapperHolder it = product_.productGetter()->getIt(tId);
00180       it.fillView(tId, pointers, helpers);
00181       product_.setProductPtr((new View<T>(pointers, helpers)));
00182     }
00183     return viewPtr();
00184   }
00185 
00186   template<typename T>
00187   inline
00188   void RefToBaseProd<T>::swap(RefToBaseProd<T>& other) {
00189     std::swap(product_, other.product_);
00190   }
00191 
00192   template<typename T>
00193   inline
00194   bool
00195   operator== (RefToBaseProd<T> const& lhs, RefToBaseProd<T> const& rhs) {
00196     return lhs.refCore() == rhs.refCore();
00197   }
00198 
00199   template<typename T>
00200   inline
00201   bool
00202   operator!= (RefToBaseProd<T> const& lhs, RefToBaseProd<T> const& rhs) {
00203     return !(lhs == rhs);
00204   }
00205 
00206   template<typename T>
00207   inline
00208   bool
00209   operator< (RefToBaseProd<T> const& lhs, RefToBaseProd<T> const& rhs) {
00210     return (lhs.refCore() < rhs.refCore());
00211   }
00212 
00213   template<typename T>
00214   inline void swap(edm::RefToBaseProd<T> const& lhs, edm::RefToBaseProd<T> const& rhs) {
00215     lhs.swap(rhs);
00216   }
00217 }
00218 
00219 #include "DataFormats/Common/interface/FillView.h"
00220 
00221 namespace edm {
00222   template<typename T>
00223   template<typename C>
00224   inline
00225   RefToBaseProd<T>::RefToBaseProd(const RefProd<C>& ref) :
00226     product_(ref.refCore()) {
00227     std::vector<void const*> pointers;
00228     typedef typename refhelper::RefToBaseProdTrait<C>::ref_vector_type ref_vector;
00229     typedef reftobase::RefVectorHolder<ref_vector> holder_type;
00230     helper_vector_ptr helpers(new holder_type);
00231     detail::reallyFillView(* ref.product(), ref.id(), pointers, * helpers);
00232     product_.setProductPtr(new View<T>(pointers, helpers));
00233   }
00234 
00235   template<typename T>
00236   template<class HandleC>
00237   inline
00238   RefToBaseProd<T>::RefToBaseProd(HandleC const& handle) :
00239     product_(handle.id(), handle.product(), 0, false) {
00240     std::vector<void const*> pointers;
00241     typedef typename refhelper::RefToBaseProdTrait<typename HandleC::element_type>::ref_vector_type ref_vector;
00242     typedef reftobase::RefVectorHolder<ref_vector> holder_type;
00243     helper_vector_ptr helpers(new holder_type);
00244     detail::reallyFillView(* handle, handle.id(), pointers, * helpers);
00245     product_.setProductPtr(new View<T>(pointers, helpers));
00246   }
00247 
00249   template<typename T>
00250   template<typename C, typename F>
00251   inline
00252   RefToBaseProd<T>::RefToBaseProd(Ref<C, T, F> const& ref) :
00253       product_(ref.id(),
00254                ref.hasProductCache() ? ref.product() : 0,
00255                ref.productGetter(),
00256                false) {
00257     std::vector<void const*> pointers;
00258     typedef typename refhelper::RefToBaseProdTrait<C>::ref_vector_type ref_vector;
00259     typedef reftobase::RefVectorHolder<ref_vector> holder_type;
00260     helper_vector_ptr helpers(new holder_type);
00261     detail::reallyFillView(* ref.product(), ref.id(), pointers, * helpers);
00262     product_.setProductPtr(new View<T>(pointers, helpers));
00263   }
00264 
00266   template<typename T>
00267   inline
00268   RefToBaseProd<T>::RefToBaseProd(RefToBase<T> const& ref) :
00269     product_(ref.id(),
00270              ref.hasProductCache() ? ref.product() : 0,
00271              ref.productGetter(),
00272              false) {
00273     std::vector<void const*> pointers;
00274     helper_vector_ptr helpers(ref.holder_->makeVectorBaseHolder().release());
00275     helpers->reallyFillView(ref.product(), ref.id(), pointers);
00276     product_.setProductPtr(new View<T>(pointers, helpers));
00277   }
00278 
00279 }
00280 
00281 #endif