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/data/refman/pasoursint/CMSSW_4_4_5_patch3/src/DataFormats/Common/interface/BaseHolder.h

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00001 #ifndef DataFormats_Common_BaseHolder_h
00002 #define DataFormats_Common_BaseHolder_h
00003 
00004 #include "DataFormats/Common/interface/CMS_CLASS_VERSION.h"
00005 #include "DataFormats/Common/interface/EDProductGetter.h"
00006 
00007 #include <memory>
00008 #include <string>
00009 
00010 namespace edm {
00011   class ProductID;
00012   class RefHolderBase;
00013 
00014   namespace reftobase {
00015     template<typename T> class BaseVectorHolder;
00016     class RefVectorHolderBase;
00017 
00018     //------------------------------------------------------------------
00019     // Class template BaseHolder<T>
00020     //
00021     // BaseHolder<T> is an abstract base class that manages a single
00022     // edm::Ref to an element of type T in a collection in the Event;
00023     // the purpose of this abstraction is to hide the type of the
00024     // collection from code that can not know about that type.
00025     //
00026     //------------------------------------------------------------------
00027     template <typename T>
00028     class BaseHolder {
00029     public:
00030       BaseHolder();
00031       virtual ~BaseHolder();
00032       virtual BaseHolder<T>* clone() const = 0;
00033 
00034       void swap(BaseHolder&);
00035 
00036       // Return the address of the element to which the hidden Ref
00037       // refers.
00038       virtual T const* getPtr() const = 0;
00039 
00040       // Return the ProductID of the collection to which the hidden
00041       // Ref refers.
00042       virtual ProductID id() const = 0;
00043       virtual size_t key() const = 0;
00044       // Check to see if the Ref hidden in 'rhs' is equal to the Ref
00045       // hidden in 'this'. They can not be equal if they are of
00046       // different types. Note that the equality test also returns
00047       // false if dynamic type of 'rhs' is different from the dynamic
00048       // type of 'this', *even when the hiddens Refs are actually
00049       // equivalent*.
00050       virtual bool isEqualTo(BaseHolder<T> const& rhs) const = 0;
00051 
00052       // If the type of Ref I contain matches the type contained in
00053       // 'fillme', set the Ref in 'fillme' equal to mine and return
00054       // true. If not, write the name of the type I really contain to
00055       // msg, and return false.
00056       virtual bool fillRefIfMyTypeMatches(RefHolderBase& fillme,
00057                                           std::string& msg) const = 0;
00058       virtual std::auto_ptr<RefHolderBase> holder() const = 0;
00059 
00060       virtual std::auto_ptr<BaseVectorHolder<T> > makeVectorHolder() const = 0;
00061       virtual std::auto_ptr<RefVectorHolderBase> makeVectorBaseHolder() const = 0;
00062 
00063       virtual EDProductGetter const* productGetter() const = 0;
00064       virtual bool hasProductCache() const = 0;
00065       virtual void const* product() const = 0;
00066 
00069       virtual bool isAvailable() const = 0;
00070 
00071       //Used by ROOT storage
00072       CMS_CLASS_VERSION(10)
00073 
00074     protected:
00075       // We want the following called only by derived classes.
00076       BaseHolder(BaseHolder const& other);
00077       BaseHolder& operator=(BaseHolder const& rhs);
00078 
00079     private:
00080     };
00081 
00082     //------------------------------------------------------------------
00083     // Implementation of BaseHolder<T>
00084     //------------------------------------------------------------------
00085 
00086     template <typename T>
00087     BaseHolder<T>::BaseHolder() {
00088     }
00089 
00090     template <typename T>
00091     BaseHolder<T>::BaseHolder(BaseHolder const& /*other*/) {
00092       // Nothing to do.
00093     }
00094 
00095     template <typename T>
00096     BaseHolder<T>&
00097     BaseHolder<T>::operator=(BaseHolder<T> const& /*other*/) {
00098       // No data to assign.
00099       return *this;
00100     }
00101 
00102     template <typename T>
00103     BaseHolder<T>::~BaseHolder() {
00104       // nothing to do.
00105     }
00106 
00107     template <typename T>
00108     void
00109     BaseHolder<T>::swap(BaseHolder<T>& /*other*/) {
00110       // nothing to do.
00111     }
00112 
00113     // Free swap function
00114     template <typename T>
00115     inline
00116     void
00117     swap(BaseHolder<T>& lhs, BaseHolder<T>& rhs) {
00118       lhs.swap(rhs);
00119     }
00120   }
00121 }
00122 
00123 #endif