using namespace MEDCoupling;
+template class DataArrayTemplate<int>;
+template class DataArrayTemplate<double>;
+
template<int SPACEDIM>
void DataArrayDouble::findCommonTuplesAlg(const double *bbox, int nbNodes, int limitNodeId, double prec, DataArrayInt *c, DataArrayInt *cI) const
{
return new DataArrayDouble;
}
-/*!
- * Checks if raw data is allocated. Read more on the raw data
- * in \ref MEDCouplingArrayBasicsTuplesAndCompo "DataArrays infos" for more information.
- * \return bool - \a true if the raw data is allocated, \a false else.
- */
-bool DataArrayDouble::isAllocated() const
-{
- return getConstPointer()!=0;
-}
-
-/*!
- * Checks if raw data is allocated and throws an exception if it is not the case.
- * \throw If the raw data is not allocated.
- */
-void DataArrayDouble::checkAllocated() const
-{
- if(!isAllocated())
- throw INTERP_KERNEL::Exception("DataArrayDouble::checkAllocated : Array is defined but not allocated ! Call alloc or setValues method first !");
-}
-
-/*!
- * This method desallocated \a this without modification of informations relative to the components.
- * After call of this method, DataArrayDouble::isAllocated will return false.
- * If \a this is already not allocated, \a this is let unchanged.
- */
-void DataArrayDouble::desallocate()
-{
- _mem.destroy();
-}
-
-std::size_t DataArrayDouble::getHeapMemorySizeWithoutChildren() const
-{
- std::size_t sz(_mem.getNbOfElemAllocated());
- sz*=sizeof(double);
- return DataArray::getHeapMemorySizeWithoutChildren()+sz;
-}
-
/*!
* Returns the only one value in \a this, if and only if number of elements
* (nb of tuples * nb of components) is equal to 1, and that \a this is allocated.
throw INTERP_KERNEL::Exception("DataArrayDouble::doubleValue : DataArrayDouble instance is not allocated !");
}
-/*!
- * Checks the number of tuples.
- * \return bool - \a true if getNumberOfTuples() == 0, \a false else.
- * \throw If \a this is not allocated.
- */
-bool DataArrayDouble::empty() const
-{
- checkAllocated();
- return getNumberOfTuples()==0;
-}
-
/*!
* Returns a full copy of \a this. For more info on copying data arrays see
* \ref MEDCouplingArrayBasicsCopyDeep.
}
}
-/*!
- * Copies all the data from another DataArrayDouble. For more info see
- * \ref MEDCouplingArrayBasicsCopyDeepAssign.
- * \param [in] other - another instance of DataArrayDouble to copy data from.
- * \throw If the \a other is not allocated.
- */
-void DataArrayDouble::deepCopyFrom(const DataArrayDouble& other)
-{
- other.checkAllocated();
- int nbOfTuples=other.getNumberOfTuples();
- int nbOfComp=other.getNumberOfComponents();
- allocIfNecessary(nbOfTuples,nbOfComp);
- std::size_t nbOfElems=(std::size_t)nbOfTuples*nbOfComp;
- double *pt=getPointer();
- const double *ptI=other.getConstPointer();
- for(std::size_t i=0;i<nbOfElems;i++)
- pt[i]=ptI[i];
- copyStringInfoFrom(other);
-}
-
-/*!
- * This method reserve nbOfElems elements in memory ( nbOfElems*8 bytes ) \b without impacting the number of tuples in \a this.
- * If \a this has already been allocated, this method checks that \a this has only one component. If not an INTERP_KERNEL::Exception will be thrown.
- * If \a this has not already been allocated, number of components is set to one.
- * This method allows to reduce number of reallocations on invokation of DataArrayDouble::pushBackSilent and DataArrayDouble::pushBackValsSilent on \a this.
- *
- * \sa DataArrayDouble::pack, DataArrayDouble::pushBackSilent, DataArrayDouble::pushBackValsSilent
- */
-void DataArrayDouble::reserve(std::size_t nbOfElems)
-{
- int nbCompo=getNumberOfComponents();
- if(nbCompo==1)
- {
- _mem.reserve(nbOfElems);
- }
- else if(nbCompo==0)
- {
- _mem.reserve(nbOfElems);
- _info_on_compo.resize(1);
- }
- else
- throw INTERP_KERNEL::Exception("DataArrayDouble::reserve : not available for DataArrayDouble with number of components different than 1 !");
-}
-
-/*!
- * This method adds at the end of \a this the single value \a val. This method do \b not update its time label to avoid useless incrementation
- * of counter. So the caller is expected to call TimeLabel::declareAsNew on \a this at the end of the push session.
- *
- * \param [in] val the value to be added in \a this
- * \throw If \a this has already been allocated with number of components different from one.
- * \sa DataArrayDouble::pushBackValsSilent
- */
-void DataArrayDouble::pushBackSilent(double val)
-{
- int nbCompo=getNumberOfComponents();
- if(nbCompo==1)
- _mem.pushBack(val);
- else if(nbCompo==0)
- {
- _info_on_compo.resize(1);
- _mem.pushBack(val);
- }
- else
- throw INTERP_KERNEL::Exception("DataArrayDouble::pushBackSilent : not available for DataArrayDouble with number of components different than 1 !");
-}
-
-/*!
- * This method adds at the end of \a this a serie of values [\c valsBg,\c valsEnd). This method do \b not update its time label to avoid useless incrementation
- * of counter. So the caller is expected to call TimeLabel::declareAsNew on \a this at the end of the push session.
- *
- * \param [in] valsBg - an array of values to push at the end of \c this.
- * \param [in] valsEnd - specifies the end of the array \a valsBg, so that
- * the last value of \a valsBg is \a valsEnd[ -1 ].
- * \throw If \a this has already been allocated with number of components different from one.
- * \sa DataArrayDouble::pushBackSilent
- */
-void DataArrayDouble::pushBackValsSilent(const double *valsBg, const double *valsEnd)
-{
- int nbCompo=getNumberOfComponents();
- if(nbCompo==1)
- _mem.insertAtTheEnd(valsBg,valsEnd);
- else if(nbCompo==0)
- {
- _info_on_compo.resize(1);
- _mem.insertAtTheEnd(valsBg,valsEnd);
- }
- else
- throw INTERP_KERNEL::Exception("DataArrayDouble::pushBackValsSilent : not available for DataArrayDouble with number of components different than 1 !");
-}
-
-/*!
- * This method returns silently ( without updating time label in \a this ) the last value, if any and suppress it.
- * \throw If \a this is already empty.
- * \throw If \a this has number of components different from one.
- */
-double DataArrayDouble::popBackSilent()
-{
- if(getNumberOfComponents()==1)
- return _mem.popBack();
- else
- throw INTERP_KERNEL::Exception("DataArrayDouble::popBackSilent : not available for DataArrayDouble with number of components different than 1 !");
-}
-
-/*!
- * This method \b do \b not modify content of \a this. It only modify its memory footprint if the allocated memory is to high regarding real data to store.
- *
- * \sa DataArrayDouble::getHeapMemorySizeWithoutChildren, DataArrayDouble::reserve
- */
-void DataArrayDouble::pack() const
-{
- _mem.pack();
-}
-
-/*!
- * Allocates the raw data in memory. If exactly same memory as needed already
- * allocated, it is not re-allocated.
- * \param [in] nbOfTuple - number of tuples of data to allocate.
- * \param [in] nbOfCompo - number of components of data to allocate.
- * \throw If \a nbOfTuple < 0 or \a nbOfCompo < 0.
- */
-void DataArrayDouble::allocIfNecessary(int nbOfTuple, int nbOfCompo)
-{
- if(isAllocated())
- {
- if(nbOfTuple!=getNumberOfTuples() || nbOfCompo!=getNumberOfComponents())
- alloc(nbOfTuple,nbOfCompo);
- }
- else
- alloc(nbOfTuple,nbOfCompo);
-}
-
-/*!
- * Allocates the raw data in memory. If the memory was already allocated, then it is
- * freed and re-allocated. See an example of this method use
- * \ref MEDCouplingArraySteps1WC "here".
- * \param [in] nbOfTuple - number of tuples of data to allocate.
- * \param [in] nbOfCompo - number of components of data to allocate.
- * \throw If \a nbOfTuple < 0 or \a nbOfCompo < 0.
- */
-void DataArrayDouble::alloc(int nbOfTuple, int nbOfCompo)
-{
- if(nbOfTuple<0 || nbOfCompo<0)
- throw INTERP_KERNEL::Exception("DataArrayDouble::alloc : request for negative length of data !");
- _info_on_compo.resize(nbOfCompo);
- _mem.alloc(nbOfCompo*(std::size_t)nbOfTuple);
- declareAsNew();
-}
-
/*!
* Assign zero to all values in \a this array. To know more on filling arrays see
* \ref MEDCouplingArrayFill.
*/
void DataArrayDouble::fillWithZero()
{
- checkAllocated();
- _mem.fillWithValue(0.);
- declareAsNew();
-}
-
-/*!
- * Assign \a val to all values in \a this array. To know more on filling arrays see
- * \ref MEDCouplingArrayFill.
- * \param [in] val - the value to fill with.
- * \throw If \a this is not allocated.
- */
-void DataArrayDouble::fillWithValue(double val)
-{
- checkAllocated();
- _mem.fillWithValue(val);
- declareAsNew();
+ fillWithValue(0.);
}
/*!
return true;
}
-/*!
- * Sorts values of the array.
- * \param [in] asc - \a true means ascending order, \a false, descending.
- * \throw If \a this is not allocated.
- * \throw If \a this->getNumberOfComponents() != 1.
- */
-void DataArrayDouble::sort(bool asc)
-{
- checkAllocated();
- if(getNumberOfComponents()!=1)
- throw INTERP_KERNEL::Exception("DataArrayDouble::sort : only supported with 'this' array with ONE component !");
- _mem.sort(asc);
- declareAsNew();
-}
-
-/*!
- * Reverse the array values.
- * \throw If \a this->getNumberOfComponents() < 1.
- * \throw If \a this is not allocated.
- */
-void DataArrayDouble::reverse()
-{
- checkAllocated();
- _mem.reverse(getNumberOfComponents());
- declareAsNew();
-}
-
/*!
* Checks that \a this array is consistently **increasing** or **decreasing** in value,
* with at least absolute difference value of |\a eps| at each step.
return _mem.isEqual(other._mem,prec,tmp);
}
-/*!
- * Changes number of tuples in the array. If the new number of tuples is smaller
- * than the current number the array is truncated, otherwise the array is extended.
- * \param [in] nbOfTuples - new number of tuples.
- * \throw If \a this is not allocated.
- * \throw If \a nbOfTuples is negative.
- */
-void DataArrayDouble::reAlloc(int nbOfTuples)
-{
- if(nbOfTuples<0)
- throw INTERP_KERNEL::Exception("DataArrayDouble::reAlloc : input new number of tuples should be >=0 !");
- checkAllocated();
- _mem.reAlloc(getNumberOfComponents()*(std::size_t)nbOfTuples);
- declareAsNew();
-}
-
/*!
* Creates a new DataArrayInt and assigns all (textual and numerical) data of \a this
* array to the new one.
return ret;
}
-/*!
- * Permutes values of \a this array as required by \a old2New array. The values are
- * permuted so that \c new[ \a old2New[ i ]] = \c old[ i ]. Number of tuples remains
- * the same as in \c this one.
- * If a permutation reduction is needed, subArray() or selectByTupleId() should be used.
- * For more info on renumbering see \ref numbering.
- * \param [in] old2New - C array of length equal to \a this->getNumberOfTuples()
- * giving a new position for i-th old value.
- */
-void DataArrayDouble::renumberInPlace(const int *old2New)
-{
- checkAllocated();
- int nbTuples=getNumberOfTuples();
- int nbOfCompo=getNumberOfComponents();
- double *tmp=new double[nbTuples*nbOfCompo];
- const double *iptr=getConstPointer();
- for(int i=0;i<nbTuples;i++)
- {
- int v=old2New[i];
- if(v>=0 && v<nbTuples)
- std::copy(iptr+nbOfCompo*i,iptr+nbOfCompo*(i+1),tmp+nbOfCompo*v);
- else
- {
- std::ostringstream oss; oss << "DataArrayDouble::renumberInPlace : At place #" << i << " value is " << v << " ! Should be in [0," << nbTuples << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- }
- std::copy(tmp,tmp+nbTuples*nbOfCompo,getPointer());
- delete [] tmp;
- declareAsNew();
-}
-
-/*!
- * Permutes values of \a this array as required by \a new2Old array. The values are
- * permuted so that \c new[ i ] = \c old[ \a new2Old[ i ]]. Number of tuples remains
- * the same as in \c this one.
- * For more info on renumbering see \ref numbering.
- * \param [in] new2Old - C array of length equal to \a this->getNumberOfTuples()
- * giving a previous position of i-th new value.
- * \return DataArrayDouble * - the new instance of DataArrayDouble that the caller
- * is to delete using decrRef() as it is no more needed.
- */
-void DataArrayDouble::renumberInPlaceR(const int *new2Old)
-{
- checkAllocated();
- int nbTuples=getNumberOfTuples();
- int nbOfCompo=getNumberOfComponents();
- double *tmp=new double[nbTuples*nbOfCompo];
- const double *iptr=getConstPointer();
- for(int i=0;i<nbTuples;i++)
- {
- int v=new2Old[i];
- if(v>=0 && v<nbTuples)
- std::copy(iptr+nbOfCompo*v,iptr+nbOfCompo*(v+1),tmp+nbOfCompo*i);
- else
- {
- std::ostringstream oss; oss << "DataArrayDouble::renumberInPlaceR : At place #" << i << " value is " << v << " ! Should be in [0," << nbTuples << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- }
- std::copy(tmp,tmp+nbTuples*nbOfCompo,getPointer());
- delete [] tmp;
- declareAsNew();
-}
-
-/*!
- * Returns a copy of \a this array with values permuted as required by \a old2New array.
- * The values are permuted so that \c new[ \a old2New[ i ]] = \c old[ i ].
- * Number of tuples in the result array remains the same as in \c this one.
- * If a permutation reduction is needed, renumberAndReduce() should be used.
- * For more info on renumbering see \ref numbering.
- * \param [in] old2New - C array of length equal to \a this->getNumberOfTuples()
- * giving a new position for i-th old value.
- * \return DataArrayDouble * - the new instance of DataArrayDouble that the caller
- * is to delete using decrRef() as it is no more needed.
- * \throw If \a this is not allocated.
- */
-DataArrayDouble *DataArrayDouble::renumber(const int *old2New) const
-{
- checkAllocated();
- int nbTuples=getNumberOfTuples();
- int nbOfCompo=getNumberOfComponents();
- MCAuto<DataArrayDouble> ret=DataArrayDouble::New();
- ret->alloc(nbTuples,nbOfCompo);
- ret->copyStringInfoFrom(*this);
- const double *iptr=getConstPointer();
- double *optr=ret->getPointer();
- for(int i=0;i<nbTuples;i++)
- std::copy(iptr+nbOfCompo*i,iptr+nbOfCompo*(i+1),optr+nbOfCompo*old2New[i]);
- ret->copyStringInfoFrom(*this);
- return ret.retn();
-}
-
/*!
* Returns a copy of \a this array with values permuted as required by \a new2Old array.
* The values are permuted so that \c new[ i ] = \c old[ \a new2Old[ i ]]. Number of
}
}
-/*!
- * Returns a value located at specified tuple and component.
- * This method is equivalent to DataArrayDouble::getIJ() except that validity of
- * parameters is checked. So this method is safe but expensive if used to go through
- * all values of \a this.
- * \param [in] tupleId - index of tuple of interest.
- * \param [in] compoId - index of component of interest.
- * \return double - value located by \a tupleId and \a compoId.
- * \throw If \a this is not allocated.
- * \throw If condition <em>( 0 <= tupleId < this->getNumberOfTuples() )</em> is violated.
- * \throw If condition <em>( 0 <= compoId < this->getNumberOfComponents() )</em> is violated.
- */
-double DataArrayDouble::getIJSafe(int tupleId, int compoId) const
-{
- checkAllocated();
- if(tupleId<0 || tupleId>=getNumberOfTuples())
- {
- std::ostringstream oss; oss << "DataArrayDouble::getIJSafe : request for tupleId " << tupleId << " should be in [0," << getNumberOfTuples() << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- if(compoId<0 || compoId>=getNumberOfComponents())
- {
- std::ostringstream oss; oss << "DataArrayDouble::getIJSafe : request for compoId " << compoId << " should be in [0," << getNumberOfComponents() << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- return _mem[tupleId*_info_on_compo.size()+compoId];
-}
-
/*!
* Returns the first value of \a this.
* \return double - the last value of \a this array.
}
}
-/*!
- * Sets a C array to be used as raw data of \a this. The previously set info
- * of components is retained and re-sized.
- * For more info see \ref MEDCouplingArraySteps1.
- * \param [in] array - the C array to be used as raw data of \a this.
- * \param [in] ownership - if \a true, \a array will be deallocated at destruction of \a this.
- * \param [in] type - specifies how to deallocate \a array. If \a type == MEDCoupling::CPP_DEALLOC,
- * \c delete [] \c array; will be called. If \a type == MEDCoupling::C_DEALLOC,
- * \c free(\c array ) will be called.
- * \param [in] nbOfTuple - new number of tuples in \a this.
- * \param [in] nbOfCompo - new number of components in \a this.
- */
-void DataArrayDouble::useArray(const double *array, bool ownership, DeallocType type, int nbOfTuple, int nbOfCompo)
-{
- _info_on_compo.resize(nbOfCompo);
- _mem.useArray(array,ownership,type,(std::size_t)nbOfTuple*nbOfCompo);
- declareAsNew();
-}
-
-void DataArrayDouble::useExternalArrayWithRWAccess(const double *array, int nbOfTuple, int nbOfCompo)
-{
- _info_on_compo.resize(nbOfCompo);
- _mem.useExternalArrayWithRWAccess(array,(std::size_t)nbOfTuple*nbOfCompo);
- declareAsNew();
-}
-
void DataArrayDouble::aggregate(const DataArrayDouble *other)
{
if(!other)
return new DataArrayInt;
}
-/*!
- * Checks if raw data is allocated. Read more on the raw data
- * in \ref MEDCouplingArrayBasicsTuplesAndCompo "DataArrays infos" for more information.
- * \return bool - \a true if the raw data is allocated, \a false else.
- */
-bool DataArrayInt::isAllocated() const
-{
- return getConstPointer()!=0;
-}
-
-/*!
- * Checks if raw data is allocated and throws an exception if it is not the case.
- * \throw If the raw data is not allocated.
- */
-void DataArrayInt::checkAllocated() const
-{
- if(!isAllocated())
- throw INTERP_KERNEL::Exception("DataArrayInt::checkAllocated : Array is defined but not allocated ! Call alloc or setValues method first !");
-}
-
-/*!
- * This method desallocated \a this without modification of informations relative to the components.
- * After call of this method, DataArrayInt::isAllocated will return false.
- * If \a this is already not allocated, \a this is let unchanged.
- */
-void DataArrayInt::desallocate()
-{
- _mem.destroy();
-}
-
-std::size_t DataArrayInt::getHeapMemorySizeWithoutChildren() const
-{
- std::size_t sz(_mem.getNbOfElemAllocated());
- sz*=sizeof(int);
- return DataArray::getHeapMemorySizeWithoutChildren()+sz;
-}
-
/*!
* Returns the only one value in \a this, if and only if number of elements
* (nb of tuples * nb of components) is equal to 1, and that \a this is allocated.
return ret+ret0;
}
-/*!
- * Checks the number of tuples.
- * \return bool - \a true if getNumberOfTuples() == 0, \a false else.
- * \throw If \a this is not allocated.
- */
-bool DataArrayInt::empty() const
-{
- checkAllocated();
- return getNumberOfTuples()==0;
-}
-
/*!
* Returns a full copy of \a this. For more info on copying data arrays see
* \ref MEDCouplingArrayBasicsCopyDeep.
}
}
-/*!
- * Copies all the data from another DataArrayInt. For more info see
- * \ref MEDCouplingArrayBasicsCopyDeepAssign.
- * \param [in] other - another instance of DataArrayInt to copy data from.
- * \throw If the \a other is not allocated.
- */
-void DataArrayInt::deepCopyFrom(const DataArrayInt& other)
-{
- other.checkAllocated();
- int nbOfTuples=other.getNumberOfTuples();
- int nbOfComp=other.getNumberOfComponents();
- allocIfNecessary(nbOfTuples,nbOfComp);
- std::size_t nbOfElems=(std::size_t)nbOfTuples*nbOfComp;
- int *pt=getPointer();
- const int *ptI=other.getConstPointer();
- for(std::size_t i=0;i<nbOfElems;i++)
- pt[i]=ptI[i];
- copyStringInfoFrom(other);
-}
-
-/*!
- * This method reserve nbOfElems elements in memory ( nbOfElems*4 bytes ) \b without impacting the number of tuples in \a this.
- * If \a this has already been allocated, this method checks that \a this has only one component. If not an INTERP_KERNEL::Exception will be thrown.
- * If \a this has not already been allocated, number of components is set to one.
- * This method allows to reduce number of reallocations on invokation of DataArrayInt::pushBackSilent and DataArrayInt::pushBackValsSilent on \a this.
- *
- * \sa DataArrayInt::pack, DataArrayInt::pushBackSilent, DataArrayInt::pushBackValsSilent
- */
-void DataArrayInt::reserve(std::size_t nbOfElems)
-{
- int nbCompo=getNumberOfComponents();
- if(nbCompo==1)
- {
- _mem.reserve(nbOfElems);
- }
- else if(nbCompo==0)
- {
- _mem.reserve(nbOfElems);
- _info_on_compo.resize(1);
- }
- else
- throw INTERP_KERNEL::Exception("DataArrayInt::reserve : not available for DataArrayInt with number of components different than 1 !");
-}
-
-/*!
- * This method adds at the end of \a this the single value \a val. This method do \b not update its time label to avoid useless incrementation
- * of counter. So the caller is expected to call TimeLabel::declareAsNew on \a this at the end of the push session.
- *
- * \param [in] val the value to be added in \a this
- * \throw If \a this has already been allocated with number of components different from one.
- * \sa DataArrayInt::pushBackValsSilent
- */
-void DataArrayInt::pushBackSilent(int val)
-{
- int nbCompo=getNumberOfComponents();
- if(nbCompo==1)
- _mem.pushBack(val);
- else if(nbCompo==0)
- {
- _info_on_compo.resize(1);
- _mem.pushBack(val);
- }
- else
- throw INTERP_KERNEL::Exception("DataArrayInt::pushBackSilent : not available for DataArrayInt with number of components different than 1 !");
-}
-
-/*!
- * This method adds at the end of \a this a serie of values [\c valsBg,\c valsEnd). This method do \b not update its time label to avoid useless incrementation
- * of counter. So the caller is expected to call TimeLabel::declareAsNew on \a this at the end of the push session.
- *
- * \param [in] valsBg - an array of values to push at the end of \c this.
- * \param [in] valsEnd - specifies the end of the array \a valsBg, so that
- * the last value of \a valsBg is \a valsEnd[ -1 ].
- * \throw If \a this has already been allocated with number of components different from one.
- * \sa DataArrayInt::pushBackSilent
- */
-void DataArrayInt::pushBackValsSilent(const int *valsBg, const int *valsEnd)
-{
- int nbCompo=getNumberOfComponents();
- if(nbCompo==1)
- _mem.insertAtTheEnd(valsBg,valsEnd);
- else if(nbCompo==0)
- {
- _info_on_compo.resize(1);
- _mem.insertAtTheEnd(valsBg,valsEnd);
- }
- else
- throw INTERP_KERNEL::Exception("DataArrayInt::pushBackValsSilent : not available for DataArrayInt with number of components different than 1 !");
-}
-
-/*!
- * This method returns silently ( without updating time label in \a this ) the last value, if any and suppress it.
- * \throw If \a this is already empty.
- * \throw If \a this has number of components different from one.
- */
-int DataArrayInt::popBackSilent()
-{
- if(getNumberOfComponents()==1)
- return _mem.popBack();
- else
- throw INTERP_KERNEL::Exception("DataArrayInt::popBackSilent : not available for DataArrayInt with number of components different than 1 !");
-}
-
-/*!
- * This method \b do \b not modify content of \a this. It only modify its memory footprint if the allocated memory is to high regarding real data to store.
- *
- * \sa DataArrayInt::getHeapMemorySizeWithoutChildren, DataArrayInt::reserve
- */
-void DataArrayInt::pack() const
-{
- _mem.pack();
-}
-
-/*!
- * Allocates the raw data in memory. If exactly as same memory as needed already
- * allocated, it is not re-allocated.
- * \param [in] nbOfTuple - number of tuples of data to allocate.
- * \param [in] nbOfCompo - number of components of data to allocate.
- * \throw If \a nbOfTuple < 0 or \a nbOfCompo < 0.
- */
-void DataArrayInt::allocIfNecessary(int nbOfTuple, int nbOfCompo)
-{
- if(isAllocated())
- {
- if(nbOfTuple!=getNumberOfTuples() || nbOfCompo!=getNumberOfComponents())
- alloc(nbOfTuple,nbOfCompo);
- }
- else
- alloc(nbOfTuple,nbOfCompo);
-}
-
-/*!
- * Allocates the raw data in memory. If the memory was already allocated, then it is
- * freed and re-allocated. See an example of this method use
- * \ref MEDCouplingArraySteps1WC "here".
- * \param [in] nbOfTuple - number of tuples of data to allocate.
- * \param [in] nbOfCompo - number of components of data to allocate.
- * \throw If \a nbOfTuple < 0 or \a nbOfCompo < 0.
- */
-void DataArrayInt::alloc(int nbOfTuple, int nbOfCompo)
-{
- if(nbOfTuple<0 || nbOfCompo<0)
- throw INTERP_KERNEL::Exception("DataArrayInt::alloc : request for negative length of data !");
- _info_on_compo.resize(nbOfCompo);
- _mem.alloc(nbOfCompo*(std::size_t)nbOfTuple);
- declareAsNew();
-}
-
/*!
* Assign zero to all values in \a this array. To know more on filling arrays see
* \ref MEDCouplingArrayFill.
*/
void DataArrayInt::fillWithZero()
{
- checkAllocated();
- _mem.fillWithValue(0);
- declareAsNew();
-}
-
-/*!
- * Assign \a val to all values in \a this array. To know more on filling arrays see
- * \ref MEDCouplingArrayFill.
- * \param [in] val - the value to fill with.
- * \throw If \a this is not allocated.
- */
-void DataArrayInt::fillWithValue(int val)
-{
- checkAllocated();
- _mem.fillWithValue(val);
- declareAsNew();
+ fillWithValue(0);
}
/*!
vec[i]=true;
}
-/*!
- * Sorts values of the array.
- * \param [in] asc - \a true means ascending order, \a false, descending.
- * \throw If \a this is not allocated.
- * \throw If \a this->getNumberOfComponents() != 1.
- */
-void DataArrayInt::sort(bool asc)
-{
- checkAllocated();
- if(getNumberOfComponents()!=1)
- throw INTERP_KERNEL::Exception("DataArrayInt::sort : only supported with 'this' array with ONE component !");
- _mem.sort(asc);
- declareAsNew();
-}
-
/*!
* Computes for each tuple the sum of number of components values in the tuple and return it.
*
return ret.retn();
}
-/*!
- * Reverse the array values.
- * \throw If \a this->getNumberOfComponents() < 1.
- * \throw If \a this is not allocated.
- */
-void DataArrayInt::reverse()
-{
- checkAllocated();
- _mem.reverse(getNumberOfComponents());
- declareAsNew();
-}
-
/*!
* Checks that \a this array is consistently **increasing** or **decreasing** in value.
* If not an exception is thrown.
return ret.retn();
}
-/*!
- * Sets a C array to be used as raw data of \a this. The previously set info
- * of components is retained and re-sized.
- * For more info see \ref MEDCouplingArraySteps1.
- * \param [in] array - the C array to be used as raw data of \a this.
- * \param [in] ownership - if \a true, \a array will be deallocated at destruction of \a this.
- * \param [in] type - specifies how to deallocate \a array. If \a type == MEDCoupling::CPP_DEALLOC,
- * \c delete [] \c array; will be called. If \a type == MEDCoupling::C_DEALLOC,
- * \c free(\c array ) will be called.
- * \param [in] nbOfTuple - new number of tuples in \a this.
- * \param [in] nbOfCompo - new number of components in \a this.
- */
-void DataArrayInt::useArray(const int *array, bool ownership, DeallocType type, int nbOfTuple, int nbOfCompo)
-{
- _info_on_compo.resize(nbOfCompo);
- _mem.useArray(array,ownership,type,nbOfTuple*nbOfCompo);
- declareAsNew();
-}
-
-void DataArrayInt::useExternalArrayWithRWAccess(const int *array, int nbOfTuple, int nbOfCompo)
-{
- _info_on_compo.resize(nbOfCompo);
- _mem.useExternalArrayWithRWAccess(array,nbOfTuple*nbOfCompo);
- declareAsNew();
-}
-
void DataArrayInt::aggregate(const DataArrayInt *other)
{
if(!other)
return ret;
}
-/*!
- * Permutes values of \a this array as required by \a old2New array. The values are
- * permuted so that \c new[ \a old2New[ i ]] = \c old[ i ]. Number of tuples remains
- * the same as in \c this one.
- * If a permutation reduction is needed, subArray() or selectByTupleId() should be used.
- * For more info on renumbering see \ref numbering.
- * \param [in] old2New - C array of length equal to \a this->getNumberOfTuples()
- * giving a new position for i-th old value.
- */
-void DataArrayInt::renumberInPlace(const int *old2New)
-{
- checkAllocated();
- int nbTuples=getNumberOfTuples();
- int nbOfCompo=getNumberOfComponents();
- int *tmp=new int[nbTuples*nbOfCompo];
- const int *iptr=getConstPointer();
- for(int i=0;i<nbTuples;i++)
- {
- int v=old2New[i];
- if(v>=0 && v<nbTuples)
- std::copy(iptr+nbOfCompo*i,iptr+nbOfCompo*(i+1),tmp+nbOfCompo*v);
- else
- {
- std::ostringstream oss; oss << "DataArrayInt::renumberInPlace : At place #" << i << " value is " << v << " ! Should be in [0," << nbTuples << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- }
- std::copy(tmp,tmp+nbTuples*nbOfCompo,getPointer());
- delete [] tmp;
- declareAsNew();
-}
-
-/*!
- * Permutes values of \a this array as required by \a new2Old array. The values are
- * permuted so that \c new[ i ] = \c old[ \a new2Old[ i ]]. Number of tuples remains
- * the same as in \c this one.
- * For more info on renumbering see \ref numbering.
- * \param [in] new2Old - C array of length equal to \a this->getNumberOfTuples()
- * giving a previous position of i-th new value.
- * \return DataArrayInt * - the new instance of DataArrayInt that the caller
- * is to delete using decrRef() as it is no more needed.
- */
-void DataArrayInt::renumberInPlaceR(const int *new2Old)
-{
- checkAllocated();
- int nbTuples=getNumberOfTuples();
- int nbOfCompo=getNumberOfComponents();
- int *tmp=new int[nbTuples*nbOfCompo];
- const int *iptr=getConstPointer();
- for(int i=0;i<nbTuples;i++)
- {
- int v=new2Old[i];
- if(v>=0 && v<nbTuples)
- std::copy(iptr+nbOfCompo*v,iptr+nbOfCompo*(v+1),tmp+nbOfCompo*i);
- else
- {
- std::ostringstream oss; oss << "DataArrayInt::renumberInPlaceR : At place #" << i << " value is " << v << " ! Should be in [0," << nbTuples << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- }
- std::copy(tmp,tmp+nbTuples*nbOfCompo,getPointer());
- delete [] tmp;
- declareAsNew();
-}
-
-/*!
- * Returns a copy of \a this array with values permuted as required by \a old2New array.
- * The values are permuted so that \c new[ \a old2New[ i ]] = \c old[ i ].
- * Number of tuples in the result array remains the same as in \c this one.
- * If a permutation reduction is needed, renumberAndReduce() should be used.
- * For more info on renumbering see \ref numbering.
- * \param [in] old2New - C array of length equal to \a this->getNumberOfTuples()
- * giving a new position for i-th old value.
- * \return DataArrayInt * - the new instance of DataArrayInt that the caller
- * is to delete using decrRef() as it is no more needed.
- * \throw If \a this is not allocated.
- */
-DataArrayInt *DataArrayInt::renumber(const int *old2New) const
-{
- checkAllocated();
- int nbTuples=getNumberOfTuples();
- int nbOfCompo=getNumberOfComponents();
- MCAuto<DataArrayInt> ret=DataArrayInt::New();
- ret->alloc(nbTuples,nbOfCompo);
- ret->copyStringInfoFrom(*this);
- const int *iptr=getConstPointer();
- int *optr=ret->getPointer();
- for(int i=0;i<nbTuples;i++)
- std::copy(iptr+nbOfCompo*i,iptr+nbOfCompo*(i+1),optr+nbOfCompo*old2New[i]);
- ret->copyStringInfoFrom(*this);
- return ret.retn();
-}
-
/*!
* Returns a copy of \a this array with values permuted as required by \a new2Old array.
* The values are permuted so that \c new[ i ] = \c old[ \a new2Old[ i ]]. Number of
return ret.retn();
}
-/*!
- * Changes number of tuples in the array. If the new number of tuples is smaller
- * than the current number the array is truncated, otherwise the array is extended.
- * \param [in] nbOfTuples - new number of tuples.
- * \throw If \a this is not allocated.
- * \throw If \a nbOfTuples is negative.
- */
-void DataArrayInt::reAlloc(int nbOfTuples)
-{
- if(nbOfTuples<0)
- throw INTERP_KERNEL::Exception("DataArrayInt::reAlloc : input new number of tuples should be >=0 !");
- checkAllocated();
- _mem.reAlloc(getNumberOfComponents()*(std::size_t)nbOfTuples);
- declareAsNew();
-}
-
-
/*!
* Returns a copy of \a this array composed of selected components.
* The new DataArrayInt has the same number of tuples but includes components
}
}
-/*!
- * Returns a value located at specified tuple and component.
- * This method is equivalent to DataArrayInt::getIJ() except that validity of
- * parameters is checked. So this method is safe but expensive if used to go through
- * all values of \a this.
- * \param [in] tupleId - index of tuple of interest.
- * \param [in] compoId - index of component of interest.
- * \return double - value located by \a tupleId and \a compoId.
- * \throw If \a this is not allocated.
- * \throw If condition <em>( 0 <= tupleId < this->getNumberOfTuples() )</em> is violated.
- * \throw If condition <em>( 0 <= compoId < this->getNumberOfComponents() )</em> is violated.
- */
-int DataArrayInt::getIJSafe(int tupleId, int compoId) const
-{
- checkAllocated();
- if(tupleId<0 || tupleId>=getNumberOfTuples())
- {
- std::ostringstream oss; oss << "DataArrayInt::getIJSafe : request for tupleId " << tupleId << " should be in [0," << getNumberOfTuples() << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- if(compoId<0 || compoId>=getNumberOfComponents())
- {
- std::ostringstream oss; oss << "DataArrayInt::getIJSafe : request for compoId " << compoId << " should be in [0," << getNumberOfComponents() << ") !";
- throw INTERP_KERNEL::Exception(oss.str().c_str());
- }
- return _mem[tupleId*_info_on_compo.size()+compoId];
-}
-
/*!
* Returns the first value of \a this.
* \return int - the last value of \a this array.
