MEDCOUPLING_EXPORT void setInfoOnComponent(int i, const std::string& info);
MEDCOUPLING_EXPORT std::size_t getNumberOfComponents() const { return _info_on_compo.size(); }
MEDCOUPLING_EXPORT void setPartOfValuesBase3(const DataArray *aBase, const int *bgTuples, const int *endTuples, int bgComp, int endComp, int stepComp, bool strictCompoCompare=true);
+ MEDCOUPLING_EXPORT virtual void *getVoidStarPointer() = 0;
MEDCOUPLING_EXPORT virtual DataArray *deepCopy() const = 0;
MEDCOUPLING_EXPORT virtual DataArray *buildNewEmptyInstance() const = 0;
MEDCOUPLING_EXPORT virtual bool isAllocated() const = 0;
MEDCOUPLING_EXPORT virtual DataArray *selectByTupleIdSafe(const int *new2OldBg, const int *new2OldEnd) const = 0;
MEDCOUPLING_EXPORT virtual DataArray *selectByTupleIdSafeSlice(int bg, int end2, int step) const = 0;
MEDCOUPLING_EXPORT virtual void rearrange(int newNbOfCompo) = 0;
+ MEDCOUPLING_EXPORT virtual void circularPermutation(int nbOfShift=1) = 0;
+ MEDCOUPLING_EXPORT virtual void circularPermutationPerTuple(int nbOfShift=1) = 0;
+ MEDCOUPLING_EXPORT virtual void reversePerTuple() = 0;
MEDCOUPLING_EXPORT void checkNbOfTuples(int nbOfTuples, const std::string& msg) const;
MEDCOUPLING_EXPORT void checkNbOfComps(int nbOfCompo, const std::string& msg) const;
MEDCOUPLING_EXPORT void checkNbOfTuplesAndComp(const DataArray& other, const std::string& msg) const;
MEDCOUPLING_EXPORT static void CheckValueInRange(int ref, int value, const std::string& msg);
MEDCOUPLING_EXPORT static void CheckValueInRangeEx(int value, int start, int end, const std::string& msg);
MEDCOUPLING_EXPORT static void CheckClosingParInRange(int ref, int value, const std::string& msg);
+ MEDCOUPLING_EXPORT static int EffectiveCircPerm(int nbOfShift, int nbOfTuples);
protected:
std::string _name;
std::vector<std::string> _info_on_compo;
class DataArrayTemplate : public DataArray
{
public:
+ MEDCOUPLING_EXPORT static MCAuto< typename Traits<T>::ArrayTypeCh > NewFromStdVector(const typename std::vector<T>& v);
+ MEDCOUPLING_EXPORT std::vector< MCAuto< typename Traits<T>::ArrayTypeCh > > explodeComponents() const;
+ //
std::size_t getHeapMemorySizeWithoutChildren() const;
//
MEDCOUPLING_EXPORT int getNumberOfTuples() const { return _info_on_compo.empty()?0:_mem.getNbOfElem()/getNumberOfComponents(); }
MEDCOUPLING_EXPORT std::size_t getNbOfElems() const { return _mem.getNbOfElem(); }
bool empty() const;
+ MEDCOUPLING_EXPORT void *getVoidStarPointer() { return getPointer(); }
MEDCOUPLING_EXPORT const T *getConstPointer() const { return _mem.getConstPointer(); }
MEDCOUPLING_EXPORT const T *begin() const { return getConstPointer(); }
MEDCOUPLING_EXPORT const T *end() const { return getConstPointer()+getNbOfElems(); }
typename Traits<T>::ArrayType *renumberAndReduce(const int *old2New, int newNbOfTuple) const;
typename Traits<T>::ArrayType *changeNbOfComponents(int newNbOfComp, T dftValue) const;
typename Traits<T>::ArrayType *subArray(int tupleIdBg, int tupleIdEnd=-1) const;
+ void circularPermutation(int nbOfShift=1);
+ void circularPermutationPerTuple(int nbOfShift=1);
+ void reversePerTuple();
void setPartOfValues1(const typename Traits<T>::ArrayType *a, int bgTuples, int endTuples, int stepTuples, int bgComp, int endComp, int stepComp, bool strictCompoCompare=true);
void setPartOfValuesSimple1(T a, int bgTuples, int endTuples, int stepTuples, int bgComp, int endComp, int stepComp);
void setPartOfValues2(const typename Traits<T>::ArrayType *a, const int *bgTuples, const int *endTuples, const int *bgComp, const int *endComp, bool strictCompoCompare=true);
MEDCOUPLING_EXPORT DataArrayDouble *fromCylToCart() const;
MEDCOUPLING_EXPORT DataArrayDouble *fromSpherToCart() const;
MEDCOUPLING_EXPORT DataArrayDouble *cartesianize(MEDCouplingAxisType atOfThis) const;
+ MEDCOUPLING_EXPORT DataArrayDouble *fromCartToPolar() const;
+ MEDCOUPLING_EXPORT DataArrayDouble *fromCartToCyl() const;
+ MEDCOUPLING_EXPORT DataArrayDouble *fromCartToSpher() const;
+ MEDCOUPLING_EXPORT DataArrayDouble *fromCartToCylGiven(const DataArrayDouble *coords, const double center[3], const double vect[3]) const;
MEDCOUPLING_EXPORT DataArrayDouble *doublyContractedProduct() const;
MEDCOUPLING_EXPORT DataArrayDouble *determinant() const;
MEDCOUPLING_EXPORT DataArrayDouble *eigenValues() const;
MEDCOUPLING_EXPORT void switchOnTupleEqualTo(int val, std::vector<bool>& vec) const;
MEDCOUPLING_EXPORT void switchOnTupleNotEqualTo(int val, std::vector<bool>& vec) const;
MEDCOUPLING_EXPORT DataArrayInt *buildPermutationArr(const DataArrayInt& other) const;
+ MEDCOUPLING_EXPORT DataArrayInt *indicesOfSubPart(const DataArrayInt& partOfThis) const;
MEDCOUPLING_EXPORT DataArrayInt *sumPerTuple() const;
MEDCOUPLING_EXPORT void checkMonotonic(bool increasing) const;
MEDCOUPLING_EXPORT bool isMonotonic(bool increasing) const;
};
}
-#include "MEDCouplingMemArray.txx"
-
namespace MEDCoupling
{
+ template<class T>
+ template<class InputIterator>
+ void MemArray<T>::insertAtTheEnd(InputIterator first, InputIterator last)
+ {
+ T *pointer=_pointer.getPointer();
+ while(first!=last)
+ {
+ if(_nb_of_elem>=_nb_of_elem_alloc)
+ {
+ reserve(_nb_of_elem_alloc>0?2*_nb_of_elem_alloc:1);
+ pointer=_pointer.getPointer();
+ }
+ pointer[_nb_of_elem++]=*first++;
+ }
+ }
+
template<class InputIterator>
void DataArrayDouble::insertAtTheEnd(InputIterator first, InputIterator last)
{