+
+ template<class T>
+ void MEDCouplingFieldT<T>::getTinySerializationStrInformation(std::vector<std::string>& tinyInfo) const
+ {
+ tinyInfo.clear();
+ timeDiscrSafe()->getTinySerializationStrInformation(tinyInfo);
+ tinyInfo.push_back(_name);
+ tinyInfo.push_back(_desc);
+ tinyInfo.push_back(getTimeUnit());
+ }
+
+ /*!
+ * This method retrieves some critical values to resize and prepare remote instance.
+ * The first two elements returned in tinyInfo correspond to the parameters to give in constructor.
+ * @param tinyInfo out parameter resized correctly after the call. The length of this vector is tiny.
+ */
+ template<class T>
+ void MEDCouplingFieldT<T>::getTinySerializationIntInformation(std::vector<int>& tinyInfo) const
+ {
+ if(_type.isNull())
+ throw INTERP_KERNEL::Exception("No spatial discretization underlying this field to perform getTinySerializationIntInformation !");
+ tinyInfo.clear();
+ tinyInfo.push_back((int)_type->getEnum());
+ tinyInfo.push_back((int)timeDiscrSafe()->getEnum());
+ tinyInfo.push_back((int)_nature);
+ timeDiscrSafe()->getTinySerializationIntInformation(tinyInfo);
+ std::vector<int> tinyInfo2;
+ _type->getTinySerializationIntInformation(tinyInfo2);
+ tinyInfo.insert(tinyInfo.end(),tinyInfo2.begin(),tinyInfo2.end());
+ tinyInfo.push_back((int)tinyInfo2.size());
+ }
+
+ /*!
+ * This method retrieves some critical values to resize and prepare remote instance.
+ * @param tinyInfo out parameter resized correctly after the call. The length of this vector is tiny.
+ */
+ template<class T>
+ void MEDCouplingFieldT<T>::getTinySerializationDbleInformation(std::vector<double>& tinyInfo) const
+ {
+ if(_type.isNull())
+ throw INTERP_KERNEL::Exception("No spatial discretization underlying this field to perform getTinySerializationDbleInformation !");
+ tinyInfo.clear();
+ timeDiscrSafe()->getTinySerializationDbleInformation(tinyInfo);
+ std::vector<double> tinyInfo2;
+ _type->getTinySerializationDbleInformation(tinyInfo2);
+ tinyInfo.insert(tinyInfo.end(),tinyInfo2.begin(),tinyInfo2.end());
+ tinyInfo.push_back((int)tinyInfo2.size());//very bad, lack of time to improve it
+ }
+
+ /*!
+ * This method has to be called to the new instance filled by CORBA, MPI, File...
+ * @param tinyInfoI is the value retrieves from distant result of getTinySerializationIntInformation on source instance to be copied.
+ * @param dataInt out parameter. If not null the pointer is already owned by \a this after the call of this method. In this case no decrRef must be applied.
+ * @param arrays out parameter is a vector resized to the right size. The pointers in the vector is already owned by \a this after the call of this method.
+ * No decrRef must be applied to every instances in returned vector.
+ * \sa checkForUnserialization
+ */
+ template<class T>
+ void MEDCouplingFieldT<T>::resizeForUnserialization(const std::vector<int>& tinyInfoI, DataArrayInt *&dataInt, std::vector<typename Traits<T>::ArrayType *>& arrays)
+ {
+ if(_type.isNull())
+ throw INTERP_KERNEL::Exception("No spatial discretization underlying this field to perform resizeForUnserialization !");
+ dataInt=0;
+ std::vector<int> tinyInfoITmp(tinyInfoI);
+ int sz=tinyInfoITmp.back();
+ tinyInfoITmp.pop_back();
+ std::vector<int> tinyInfoITmp2(tinyInfoITmp.begin(),tinyInfoITmp.end()-sz);
+ std::vector<int> tinyInfoI2(tinyInfoITmp2.begin()+3,tinyInfoITmp2.end());
+ timeDiscrSafe()->resizeForUnserialization(tinyInfoI2,arrays);
+ std::vector<int> tinyInfoITmp3(tinyInfoITmp.end()-sz,tinyInfoITmp.end());
+ _type->resizeForUnserialization(tinyInfoITmp3,dataInt);
+ }
+
+ /*!
+ * This method is extremely close to resizeForUnserialization except that here the arrays in \a dataInt and in \a arrays are attached in \a this
+ * after having checked that size is correct. This method is used in python pickeling context to avoid copy of data.
+ * \sa resizeForUnserialization
+ */
+ template<class T>
+ void MEDCouplingFieldT<T>::checkForUnserialization(const std::vector<int>& tinyInfoI, const DataArrayInt *dataInt, const std::vector<typename Traits<T>::ArrayType *>& arrays)
+ {
+ if(_type.isNull())
+ throw INTERP_KERNEL::Exception("No spatial discretization underlying this field to perform resizeForUnserialization !");
+ std::vector<int> tinyInfoITmp(tinyInfoI);
+ int sz=tinyInfoITmp.back();
+ tinyInfoITmp.pop_back();
+ std::vector<int> tinyInfoITmp2(tinyInfoITmp.begin(),tinyInfoITmp.end()-sz);
+ std::vector<int> tinyInfoI2(tinyInfoITmp2.begin()+3,tinyInfoITmp2.end());
+ timeDiscrSafe()->checkForUnserialization(tinyInfoI2,arrays);
+ std::vector<int> tinyInfoITmp3(tinyInfoITmp.end()-sz,tinyInfoITmp.end());
+ _type->checkForUnserialization(tinyInfoITmp3,dataInt);
+ }
+
+ template<class T>
+ void MEDCouplingFieldT<T>::finishUnserialization(const std::vector<int>& tinyInfoI, const std::vector<double>& tinyInfoD, const std::vector<std::string>& tinyInfoS)
+ {
+ if(_type.isNull())
+ throw INTERP_KERNEL::Exception("No spatial discretization underlying this field to perform finishUnserialization !");
+ std::vector<int> tinyInfoI2(tinyInfoI.begin()+3,tinyInfoI.end());
+ //
+ std::vector<double> tmp(tinyInfoD);
+ int sz=(int)tinyInfoD.back();//very bad, lack of time to improve it
+ tmp.pop_back();
+ std::vector<double> tmp1(tmp.begin(),tmp.end()-sz);
+ std::vector<double> tmp2(tmp.end()-sz,tmp.end());
+ //
+ timeDiscrSafe()->finishUnserialization(tinyInfoI2,tmp1,tinyInfoS);
+ _nature=(NatureOfField)tinyInfoI[2];
+ _type->finishUnserialization(tmp2);
+ int nbOfElemS=(int)tinyInfoS.size();
+ _name=tinyInfoS[nbOfElemS-3];
+ _desc=tinyInfoS[nbOfElemS-2];
+ setTimeUnit(tinyInfoS[nbOfElemS-1]);
+ }
+
+ /*!
+ * Contrary to MEDCouplingPointSet class the returned arrays are \b not the responsibilities of the caller.
+ * The values returned must be consulted only in readonly mode.
+ */
+ template<class T>
+ void MEDCouplingFieldT<T>::serialize(DataArrayInt *&dataInt, std::vector<typename Traits<T>::ArrayType *>& arrays) const
+ {
+ if(_type.isNull())
+ throw INTERP_KERNEL::Exception("No spatial discretization underlying this field to perform serialize !");
+ timeDiscrSafe()->getArrays(arrays);
+ _type->getSerializationIntArray(dataInt);
+ }