1 // Copyright (C) 2007-2021 CEA/DEN, EDF R&D
3 // This library is free software; you can redistribute it and/or
4 // modify it under the terms of the GNU Lesser General Public
5 // License as published by the Free Software Foundation; either
6 // version 2.1 of the License, or (at your option) any later version.
8 // This library is distributed in the hope that it will be useful,
9 // but WITHOUT ANY WARRANTY; without even the implied warranty of
10 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 // Lesser General Public License for more details.
13 // You should have received a copy of the GNU Lesser General Public
14 // License along with this library; if not, write to the Free Software
15 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
20 #include "MEDCouplingSkyLineArray.hxx"
26 using namespace MEDCoupling;
28 MEDCouplingSkyLineArray::MEDCouplingSkyLineArray():
29 _super_index( DataArrayIdType::New() ), _index( DataArrayIdType::New() ), _values( DataArrayIdType::New() )
33 MEDCouplingSkyLineArray::~MEDCouplingSkyLineArray()
37 MEDCouplingSkyLineArray* MEDCouplingSkyLineArray::New()
39 return new MEDCouplingSkyLineArray();
42 MEDCouplingSkyLineArray* MEDCouplingSkyLineArray::New( const std::vector<mcIdType>& index,
43 const std::vector<mcIdType>& value )
45 MEDCouplingSkyLineArray * ret = new MEDCouplingSkyLineArray();
46 ret->_index->reserve( index.size() );
47 ret->_index->insertAtTheEnd( index.begin(), index.end() );
48 ret->_values->reserve( value.size() );
49 ret->_values->insertAtTheEnd( value.begin(), value.end() );
53 MEDCouplingSkyLineArray* MEDCouplingSkyLineArray::New( DataArrayIdType* index, DataArrayIdType* value )
55 MEDCouplingSkyLineArray* ret = new MEDCouplingSkyLineArray();
56 ret->set(index, value);
60 MEDCouplingSkyLineArray* MEDCouplingSkyLineArray::New( const MEDCouplingSkyLineArray & other )
62 MEDCouplingSkyLineArray* ret = new MEDCouplingSkyLineArray();
63 ret->_super_index = other._super_index;
64 ret->_index = other._index;
65 ret->_values = other._values;
69 /**! Build a three level SkyLine array from the dynamic connectivity of a dynamic mesh (i.e. containing only
70 * polyhedrons or polygons).
71 * The input arrays are deep copied, contrary to the other ctors.
73 MEDCouplingSkyLineArray * MEDCouplingSkyLineArray::BuildFromPolyhedronConn( const DataArrayIdType* c, const DataArrayIdType* cI )
77 MEDCouplingSkyLineArray* ret = new MEDCouplingSkyLineArray();
79 const mcIdType * cP(c->begin()), * cIP(cI->begin());
81 if (c->getNbOfElems() != *(cI->end()-1))
82 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::BuildFromDynamicConn: misformatted connectivity (wrong nb of tuples)!");
83 for (mcIdType i=0; i < cI->getNbOfElems(); i++)
87 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::BuildFromDynamicConn: misformatted connectivity (indices not monotonic ascending)!");
89 if (i!=cI->getNbOfElems()-1)
90 if (cP[j] != INTERP_KERNEL::NORM_POLYHED)
91 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::BuildFromDynamicConn: connectivity containing other types than POLYHED!");
94 vector<mcIdType> superIdx, idx, vals;
95 mcIdType cnt = 0, cnt2 = 0;
96 superIdx.reserve(cI->getNbOfElems());
97 superIdx.push_back(0);
99 vals.resize(c->getNbOfElems()); // too much because of the type and the -1, but still better than push_back().
100 for (mcIdType i=0; i < cI->getNbOfElems()-1; i++)
102 mcIdType start = cIP[i]+1, end = cIP[i+1];
103 mcIdType * work = vals.data() + cnt;
104 const mcIdType * w = cP+start;
105 const mcIdType * w2 = find(w, cP+end, -1);
109 mcIdType d = ToIdType(distance(w, w2));
111 idx.push_back(cnt); cnt2++;
112 w = w2+1; // skip the -1
113 w2 = find(w, cP+end, -1);
115 copy(w, cP+end, work);
116 cnt += ToIdType(distance(w, cP+end));
117 idx.push_back(cnt); cnt2++;
118 superIdx.push_back(cnt2);
120 ret->_super_index->alloc(superIdx.size(),1);
121 copy(superIdx.begin(), superIdx.end(), ret->_super_index->getPointer());
122 ret->_index->alloc(idx.size(),1);
123 copy(idx.begin(), idx.end(), ret->_index->getPointer());
124 ret->_values->alloc(cnt,1);
125 copy(vals.begin(), vals.begin()+cnt, ret->_values->getPointer());
131 * Convert a three-level SkyLineArray into a polyhedral connectivity.
132 * The super-packs are interpreted as cell description, and the packs represent the face connectivity.
134 void MEDCouplingSkyLineArray::convertToPolyhedronConn( MCAuto<DataArrayIdType>& c, MCAuto<DataArrayIdType>& cI) const
136 // TODO: in this case an iterator would be nice
139 checkSuperIndex("convertToPolyhedronConn");
141 const mcIdType * siP(_super_index->begin()), * iP(_index->begin()), *vP(_values->begin());
143 cI->alloc(_super_index->getNbOfElems(),1); // same number of super packs as number of cells
144 mcIdType * cIVecP(cI->getPointer());
145 MCAuto <DataArrayIdType> dsi = _index->deltaShiftIndex();
146 mcIdType sz = dsi->accumulate((std::size_t)0) + ToIdType(dsi->getNbOfElems()); // think about it: one slot for the type, -1 at the end of each face of the cell
148 mcIdType * cVecP(c->getPointer());
150 for ( mcIdType i=0; i < _super_index->getNbOfElems()-1; i++)
153 mcIdType endId = siP[i+1];
154 cVecP[cnt++] = INTERP_KERNEL::NORM_POLYHED;
155 for (mcIdType j=siP[i]; j < endId; j++)
157 mcIdType startId2 = iP[j], endId2 = iP[j+1];
158 copy(vP+startId2, vP+endId2, cVecP+cnt);
159 cnt += endId2-startId2;
164 cIVecP[_super_index->getNbOfElems()-1] = cnt;
167 std::size_t MEDCouplingSkyLineArray::getHeapMemorySizeWithoutChildren() const
169 return _index->getHeapMemorySizeWithoutChildren()+_values->getHeapMemorySizeWithoutChildren()+_super_index->getHeapMemorySizeWithoutChildren();
172 std::vector<const BigMemoryObject *> MEDCouplingSkyLineArray::getDirectChildrenWithNull() const
174 std::vector<const BigMemoryObject *> ret;
175 ret.push_back(_super_index);
176 ret.push_back(_index);
177 ret.push_back(_values);
182 void MEDCouplingSkyLineArray::set( DataArrayIdType* index, DataArrayIdType* value )
186 if ( (DataArrayIdType*)_index ) _index->incrRef();
187 else _index = DataArrayIdType::New();
188 if ( (DataArrayIdType*)_values ) _values->incrRef();
189 else _values = DataArrayIdType::New();
192 void MEDCouplingSkyLineArray::set3( DataArrayIdType* superIndex, DataArrayIdType* index, DataArrayIdType* value )
194 _super_index=superIndex;
195 if ( (DataArrayIdType*)_super_index ) _super_index->incrRef();
196 else _super_index = DataArrayIdType::New();
200 DataArrayIdType* MEDCouplingSkyLineArray::getSuperIndexArray() const
202 return const_cast<MEDCouplingSkyLineArray*>(this)->_super_index;
206 DataArrayIdType* MEDCouplingSkyLineArray::getIndexArray() const
208 return const_cast<MEDCouplingSkyLineArray*>(this)->_index;
211 DataArrayIdType* MEDCouplingSkyLineArray::getValuesArray() const
213 return const_cast<MEDCouplingSkyLineArray*>(this)->_values;
216 MEDCouplingSkyLineArray *MEDCouplingSkyLineArray::deepCopy() const
218 MCAuto<DataArrayIdType> indexCpy(this->_index->deepCopy());
219 MCAuto<DataArrayIdType> valuesCpy(this->_values->deepCopy());
220 MCAuto<MEDCouplingSkyLineArray> ret(MEDCouplingSkyLineArray::New(indexCpy,valuesCpy));
221 if(_super_index.isNotNull())
223 MCAuto<DataArrayIdType> superIndexCpy(this->_super_index->deepCopy());
224 ret->_super_index = superIndexCpy;
229 void MEDCouplingSkyLineArray::checkSuperIndex(const std::string& func) const
231 if (!_super_index->getNbOfElems())
233 std::ostringstream oss;
234 oss << "MEDCouplingSkyLineArray::"<< func << ": not a three level SkyLineArray! Method is not available for two-level SkyLineArray.";
235 throw INTERP_KERNEL::Exception(oss.str());
239 void MEDCouplingSkyLineArray::validSuperIndex(const std::string& func, mcIdType superIndex) const
241 if(superIndex < 0 || superIndex >= _super_index->getNbOfElems())
243 std::ostringstream oss;
244 oss << "MEDCouplingSkyLineArray::" << func << ": invalid super index!";
245 throw INTERP_KERNEL::Exception(oss.str());
249 void MEDCouplingSkyLineArray::validIndex(const std::string& func, mcIdType idx) const
251 if(idx < 0 || idx >= _index->getNbOfElems())
253 std::ostringstream oss;
254 oss << "MEDCouplingSkyLineArray::" << func << ": invalid index!";
255 throw INTERP_KERNEL::Exception(oss.str());
259 void MEDCouplingSkyLineArray::validSuperIndexAndIndex(const std::string& func, mcIdType superIndex, mcIdType index) const
261 validSuperIndex(func, superIndex);
262 mcIdType idx = _super_index->begin()[superIndex] + index;
263 if(idx < 0 || idx >= _index->getNbOfElems())
265 std::ostringstream oss;
266 oss << "MEDCouplingSkyLineArray::" << func << ": invalid index!";
267 throw INTERP_KERNEL::Exception(oss.str());
271 std::string MEDCouplingSkyLineArray::simpleRepr() const
273 std::ostringstream oss;
274 oss << "MEDCouplingSkyLineArray (" << this << ")" << std::endl;
275 MCAuto<DataArrayIdType> super_index = _super_index->deepCopy();
276 if (_super_index->getNbOfElems())
277 oss << " Nb of super-packs: " << getSuperNumberOf() << std::endl;
280 super_index->alloc(2,1);
281 super_index->setIJSilent(0,0,0);
282 super_index->setIJSilent(1,0,_index->getNbOfElems()-1);
284 oss << " Nb of packs: " << getNumberOf() << std::endl;
285 oss << " Nb of values: " << getLength() << std::endl;
287 if (_super_index->getNbOfElems())
289 oss << " Super-indices:" << std::endl;
291 const mcIdType * i = _super_index->begin();
292 for ( ; i != _super_index->end(); ++i )
297 oss << " Indices:" << std::endl;
299 const mcIdType * i = _index->begin();
300 for ( ; i != _index->end(); ++i )
303 oss << " Values:" << std::endl;
305 const mcIdType * v = _values->begin();
306 mcIdType cnt = 0, cntI = 0;
308 for ( const mcIdType * si = super_index->begin()+1; v != _values->end(); ++v, ++cnt )
312 if ( cntI == *si && cnt != 0)
314 oss << std::endl << " ";
329 * Returns 2 SkyLineArrays with same number of packs than \a this.
330 * Each pack in \a this is split in 2 parts using \a threshold parameter as cut point.
331 * \a left part contains ids in \a this pack strictly lower than \a threshold
332 * \a right part contains ids in \a this pack greater or equal to \a threshold
334 void MEDCouplingSkyLineArray::thresholdPerPack(mcIdType threshold, MCAuto<MEDCouplingSkyLineArray>& left, MCAuto<MEDCouplingSkyLineArray>& right) const
336 mcIdType nbPacks(this->getNumberOf());
337 MCAuto<DataArrayIdType> lCount(DataArrayIdType::New()); lCount->alloc(nbPacks,1); lCount->fillWithZero();
338 mcIdType *lCountPtr(lCount->getPointerSilent());
339 const mcIdType *valuesPtr(this->_values->begin()),*indexPtr(this->_index->begin());
340 for(mcIdType i = 0 ; i < nbPacks ; ++i, ++lCountPtr)
342 *lCountPtr = ToIdType(std::count_if(valuesPtr+indexPtr[i],valuesPtr+indexPtr[i+1],[threshold](mcIdType elt) { return elt<threshold; }));
344 MCAuto<DataArrayIdType> sizeOfPacks(this->_index->deltaShiftIndex());
345 sizeOfPacks->substractEqual(lCount);
346 mcIdType leftNbOfVal(lCount->accumulate(std::size_t(0))),rightNbOfVal(sizeOfPacks->accumulate(std::size_t(0)));
347 lCount->computeOffsetsFull(); sizeOfPacks->computeOffsetsFull();
348 MCAuto<DataArrayIdType> leftValues(DataArrayIdType::New()); leftValues->alloc(leftNbOfVal,1);
349 MCAuto<DataArrayIdType> rightValues(DataArrayIdType::New()); rightValues->alloc(rightNbOfVal,1);
350 mcIdType *rvPtr(rightValues->getPointerSilent()),*lvPtr(leftValues->getPointerSilent());
351 for(mcIdType i = 0 ; i < nbPacks ; ++i)
353 std::for_each(valuesPtr+indexPtr[i],valuesPtr+indexPtr[i+1],[threshold,&rvPtr,&lvPtr](mcIdType elt) { if(elt<threshold) { *lvPtr++ = elt; } else { *rvPtr++ = elt; } });
355 left = MEDCouplingSkyLineArray::New(lCount,leftValues); right = MEDCouplingSkyLineArray::New(sizeOfPacks,rightValues);
358 MEDCouplingSkyLineArray *MEDCouplingSkyLineArray::groupPacks(const DataArrayIdType *indexedPacks) const
360 indexedPacks->checkAllocated();
361 if( indexedPacks->getNumberOfComponents() != 1 )
362 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::groupPacks : number of components must be 1 !");
363 std::size_t nbTuples(indexedPacks->getNumberOfTuples());
365 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::groupPacks : number of tuples must be > 0 !");
366 const DataArrayIdType *index(this->getIndexArray());
367 MCAuto<DataArrayIdType> partIndex(index->selectByTupleIdSafe(indexedPacks->begin(),indexedPacks->end()));
368 MCAuto<MEDCouplingSkyLineArray> ret(MEDCouplingSkyLineArray::New(partIndex,this->getValuesArray()));
372 MEDCouplingSkyLineArray *MEDCouplingSkyLineArray::uniqueNotSortedByPack() const
374 mcIdType nbPacks(this->getNumberOf());
375 MCAuto<DataArrayIdType> retIndex(DataArrayIdType::New()); retIndex->alloc(nbPacks+1,1);
376 const mcIdType *valuesPtr(this->_values->begin()),*indexPtr(this->_index->begin());
377 mcIdType *retIndexPtr(retIndex->getPointer()); *retIndexPtr = 0;
378 for(mcIdType i = 0 ; i < nbPacks ; ++i, ++retIndexPtr)
380 std::set<mcIdType> s(valuesPtr+indexPtr[i],valuesPtr+indexPtr[i+1]);
381 retIndexPtr[1] = retIndexPtr[0] + ToIdType(s.size());
383 MCAuto<DataArrayIdType> retValues(DataArrayIdType::New()); retValues->alloc(retIndex->back(),1);
384 mcIdType *retValuesPtr(retValues->getPointer());
385 for(mcIdType i = 0 ; i < nbPacks ; ++i)
387 std::set<mcIdType> s(valuesPtr+indexPtr[i],valuesPtr+indexPtr[i+1]);
388 retValuesPtr = std::copy(s.begin(),s.end(),retValuesPtr);
390 MCAuto<MEDCouplingSkyLineArray> ret(MEDCouplingSkyLineArray::New(retIndex,retValues));
394 * Take as input skylinearrays containing the same number of packs ( \a this->getNumberOf ).
395 * For each packs, this method aggregates corresponding pack in \a sks.
397 * \throw if either a lenght of not nullptr instances in \a sks is zero or if number of packs of not nullptr instances in \a sks is not the same.
398 * \return a newly allocated skyline array that is the aggregated packs of inputs
400 MEDCouplingSkyLineArray *MEDCouplingSkyLineArray::AggregatePacks(const std::vector<const MEDCouplingSkyLineArray *>& sks)
402 std::vector<const MEDCouplingSkyLineArray *>sksEff;
403 mcIdType nbOfPacks(std::numeric_limits<mcIdType>::max());
404 constexpr char MSG[]="MEDCouplingSkyLineArray::AggregatePacks : ";
409 mcIdType curNbPacks(sk->getNumberOf());
411 nbOfPacks = curNbPacks;
412 if(nbOfPacks != curNbPacks)
414 std::ostringstream oss; oss << MSG << "first not null input ska has " << nbOfPacks << " whereas there is presence of ska with " << curNbPacks << " !";
415 throw INTERP_KERNEL::Exception(oss.str());
417 sksEff.push_back(sk);
422 std::ostringstream oss; oss << MSG << "input vector contains no not nullptr elements !";
423 throw INTERP_KERNEL::Exception(oss.str());
426 MCAuto<DataArrayIdType> index(DataArrayIdType::New()); index->alloc(nbOfPacks+1,1);
427 mcIdType *indexPtr(index->getPointer()); *indexPtr=0;
428 std::vector<const mcIdType *> indicesIn(SkyLineArrayIndexIterator(0,&sksEff),SkyLineArrayIndexIterator(sksEff.size(),&sksEff));
429 for( mcIdType packId = 0 ; packId < nbOfPacks ; ++packId, ++indexPtr )
431 mcIdType nbOfAggPacks(0);
432 std::for_each(indicesIn.begin(),indicesIn.end(),[packId,&nbOfAggPacks](const mcIdType *elt) { nbOfAggPacks+=elt[packId+1]-elt[packId]; });
433 indexPtr[1] = indexPtr[0] + nbOfAggPacks;
435 mcIdType nbOfTuplesOut(index->back());
436 MCAuto<DataArrayIdType> values(DataArrayIdType::New()); values->alloc(nbOfTuplesOut,1);
437 mcIdType *valuesPtr(values->getPointer());
438 // let's go to populate values array
439 std::vector<const mcIdType *> valuesIn(SkyLineArrayValuesIterator(0,&sksEff),SkyLineArrayValuesIterator(sksEff.size(),&sksEff));
440 for( mcIdType packId = 0 ; packId < nbOfPacks ; ++packId )
443 std::for_each(valuesIn.begin(),valuesIn.end(),[packId,&indicesIn,&valuesPtr,&pos](const mcIdType *elt)
444 { valuesPtr=std::copy(elt+indicesIn[pos][packId],elt+indicesIn[pos][packId+1],valuesPtr); ++pos; }
448 MCAuto<MEDCouplingSkyLineArray> ret(MEDCouplingSkyLineArray::New(index,values));
453 * For a 2- or 3-level SkyLine array, return a copy of the absolute pack with given identifier.
455 void MEDCouplingSkyLineArray::getSimplePackSafe(const mcIdType absolutePackId, std::vector<mcIdType> & pack) const
457 if(absolutePackId < 0 || absolutePackId >= _index->getNbOfElems())
458 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::getPackSafe: invalid index!");
459 const mcIdType * iP(_index->begin()), *vP(_values->begin());
460 mcIdType sz = iP[absolutePackId+1]-iP[absolutePackId];
462 std::copy(vP+iP[absolutePackId], vP+iP[absolutePackId+1],pack.begin());
466 * Same as getPackSafe, but directly returns a pointer to the internal data with the size of the pack.
468 const mcIdType * MEDCouplingSkyLineArray::getSimplePackSafePtr(const mcIdType absolutePackId, mcIdType & packSize) const
470 if(absolutePackId < 0 || absolutePackId >= _index->getNbOfElems())
471 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::getPackSafe: invalid index!");
472 const mcIdType * iP(_index->begin()), *vP(_values->begin());
473 packSize = iP[absolutePackId+1]-iP[absolutePackId];
474 return vP+iP[absolutePackId];
479 * For each given super-pack ID, provide the sub-index of the first matching pack. If no matching pack is found for the
480 * given super-pack -1 is returned.
481 * \param[in] superPackIndices the list of super-packs that should be inspected
482 * \param[in] packBg the pack that the function is looking for in each of the provided super-pack
483 * \param[in] packEnd the pack that the function is looking for in each of the provided super-pack
484 * \param[out] out a vector of mcIdType, having the same size as superPackIndices and containing for each inspected super-pack
485 * the index of the first matching pack, or -1 if none found.
487 void MEDCouplingSkyLineArray::findPackIds(const std::vector<mcIdType> & superPackIndices,
488 const mcIdType *packBg, const mcIdType *packEnd,
489 std::vector<mcIdType>& out) const
493 checkSuperIndex("findPackIds");
495 mcIdType packSz = ToIdType(std::distance(packBg, packEnd));
497 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::findPackIds: void pack!");
499 out.resize(superPackIndices.size());
501 const mcIdType * siP(_super_index->begin()), * iP(_index->begin()), *vP(_values->begin());
502 for(vector<mcIdType>::const_iterator it=superPackIndices.begin(); it!=superPackIndices.end(); ++it, i++)
505 const mcIdType sPackIdx = *it;
507 for (mcIdType idx=siP[sPackIdx], j=0; idx < siP[sPackIdx+1]; idx++, j++)
509 if (packSz == (iP[idx+1] - iP[idx]))
510 if (equal(&vP[iP[idx]], &vP[iP[idx+1]], packBg))
520 * Delete pack number 'idx' in super-pack number 'superIdx'.
521 * \param[in] superIdx is the super-pack number
522 * \param[in] idx is the pack index inside the super-pack 'superIdx'.
524 void MEDCouplingSkyLineArray::deletePack(const mcIdType superIdx, const mcIdType idx)
526 checkSuperIndex("deletePack");
527 validSuperIndexAndIndex("deletePack", superIdx, idx);
529 mcIdType * vP = _values->getPointer();
530 mcIdType * siP(_super_index->getPointer()), *iP(_index->getPointer());
531 const mcIdType start = iP[siP[superIdx]+idx], end = iP[siP[superIdx]+idx+1];
533 std::copy(vP+end, vP+_values->getNbOfElems(), vP+start);
534 _values->reAlloc(_values->getNbOfElems() - (end-start));
537 mcIdType nt = _index->getNbOfElems();
538 std::copy(iP+siP[superIdx]+idx+1, iP+nt, iP+siP[superIdx]+idx);
539 _index->reAlloc(nt-1); iP = _index->getPointer(); // better not forget this ...
540 for(mcIdType ii = siP[superIdx]+idx; ii < nt-1; ii++)
541 iP[ii] -= (end-start);
544 for(mcIdType ii = superIdx+1; ii < _super_index->getNbOfElems(); ii++)
548 void MEDCouplingSkyLineArray::deleteSimplePack(const mcIdType idx)
550 validIndex("deleteSimplePack", idx);
552 mcIdType* iP(_index->getPointer());
553 const mcIdType start(iP[idx]), end(iP[idx+1]);
556 mcIdType initValSz=_values->getNbOfElems();
557 mcIdType deltaSz( start-end ); // should be negative
558 mcIdType *vP(_values->getPointer());
561 std::copy(vP+end, vP+initValSz, vP+start);
562 _values->reAlloc(initValSz+deltaSz);
565 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::deleteSimplePack");
567 mcIdType nt=_index->getNbOfElems();
568 std::copy(iP+idx+1, iP+nt, iP+idx);
569 for(mcIdType ii = idx; ii < nt-1; ii++)
571 _index->reAlloc(nt-1);
574 void MEDCouplingSkyLineArray::replaceSimplePacks(const DataArrayIdType* idx, const std::vector<const DataArrayIdType*>& packs)
579 for (const mcIdType * id = idx->begin(); id != idx->end(); id++)
580 validIndex("deleteSimplePacks", *id);
582 if (idx->getNbOfElems() != ToIdType( packs.size()))
583 throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::deleteSimplePacks: size of list of pack is incorrect");
585 // copy _index, _values into a deque<set<mcIdType>>
586 std::deque< std::set<mcIdType> > valuesByIdx;
587 mcIdType* vP(_values->getPointer());
588 mcIdType* iP(_index->getPointer());
589 mcIdType nt = _index->getNbOfElems();
590 for (mcIdType ii = 0; ii < nt-1; ii++)
591 valuesByIdx.push_back(std::set<mcIdType>(vP+iP[ii], vP+iP[ii+1]));
593 // modify the deque<set<mcIdType>> according to idx and packs
595 for (const mcIdType *id = idx->begin(); id != idx->end(); id++)
597 valuesByIdx[*id] = std::set<mcIdType>(packs[ii]->begin(), packs[ii]->end());
600 // copy back the deque<set<mcIdType>> into _index, _values
603 for (std::deque< std::set<mcIdType> >::const_iterator values=valuesByIdx.begin();values!=valuesByIdx.end();values++)
605 valSz += ToIdType((*values).size());
608 _values->reAlloc(valSz);
609 iP = _index->getPointer();
610 vP = _values->getPointer();
611 for (auto values : valuesByIdx)
613 std::copy(values.begin(), values.end(), vP+(*iP));
618 void MEDCouplingSkyLineArray::deleteSimplePacks(const DataArrayIdType* idx)
620 for (auto id = idx->begin(); id != idx->end(); id++)
621 validIndex("deleteSimplePacks", *id);
623 std::set<mcIdType> packsToDelete(idx->begin(), idx->end());
626 mcIdType* iP(_index->getPointer());
627 mcIdType initValSz = _values->getNbOfElems();
628 mcIdType *vP(_values->getPointer());
629 mcIdType end_prec(0),start_prec(0);
630 for(std::set<mcIdType>::const_iterator ii=packsToDelete.begin();ii!=packsToDelete.end();ii++)
632 mcIdType start = iP[*ii];
634 std::copy(vP+end_prec, vP+start, vP+start_prec);
635 start_prec += start-end_prec;
636 end_prec = iP[*ii+1];
639 std::copy(vP+end_prec, vP+initValSz, vP+start_prec);
640 _values->reAlloc(initValSz-(end_prec-start_prec));
643 mcIdType nt = _index->getNbOfElems();
647 mcIdType deleted = 0;
648 for(std::set<mcIdType>::const_iterator ii=packsToDelete.begin();ii!=packsToDelete.end();ii++)
652 std::copy(iP+end_prec, iP+*ii, iP+start_prec);
653 for (mcIdType i=start_prec; i<*ii; i++)
656 offset += iP[*ii+1] - iP[*ii];
657 start_prec = *ii-deleted;
663 std::copy(iP+end_prec, iP+nt, iP+start_prec);
664 for (mcIdType i=start_prec; i<nt; i++)
667 _index->reAlloc(nt-deleted);
671 * Insert a new pack in super-pack at index 'superIdx'. The pack is inserted at the end of the pack list of the chosen super-pack.
673 void MEDCouplingSkyLineArray::pushBackPack(const mcIdType superIdx, const mcIdType * packBg, const mcIdType * packEnd)
677 checkSuperIndex("pushBackPack");
678 validSuperIndex("pushBackPack", superIdx);
680 mcIdType *siP(_super_index->getPointer()), *iP(_index->getPointer());
681 const mcIdType sz(ToIdType(distance(packBg, packEnd)));
684 _values->reAlloc(_values->getNbOfElems()+sz);
685 mcIdType * vPE(_values->getPointer()+_values->getNbOfElems());
686 mcIdType *vP(_values->getPointer());
687 copy(vP+iP[siP[superIdx+1]], vPE-sz, vP+iP[siP[superIdx+1]]+sz);
689 copy(packBg, packEnd, vP+iP[siP[superIdx+1]]);
692 mcIdType nt = ToIdType(_index->getNbOfElems());
693 _index->reAlloc(nt+1); iP = _index->getPointer();
694 copy(iP+siP[superIdx+1]+1, iP+nt, iP+siP[superIdx+1]+2);
695 iP[siP[superIdx+1]+1] = iP[siP[superIdx+1]] + sz;
696 for(mcIdType ii = siP[superIdx+1]+2; ii < nt+1; ii++)
700 for(mcIdType ii = superIdx+1; ii < _super_index->getNbOfElems(); ii++)
705 * Replace pack with absolute index 'idx' with the provided new pack. Function can be used either
706 * for 2-level SkyLine or 3-level SkyLine.
708 void MEDCouplingSkyLineArray::replaceSimplePack(const mcIdType idx, const mcIdType * packBg, const mcIdType * packEnd)
710 validIndex("replaceSimplePack", idx);
712 mcIdType * iP(_index->getPointer());
713 mcIdType newSz = ToIdType(std::distance(packBg, packEnd));
714 const mcIdType start = iP[idx], end = iP[idx+1];
717 mcIdType initValSz = _values->getNbOfElems();
718 mcIdType deltaSz = newSz-(end-start); // can be negative
722 _values->reAlloc(initValSz+deltaSz);
723 mcIdType *vP(_values->getPointer());
724 std::copy(vP+end, vP+initValSz, vP+end+deltaSz);
726 _values->reAlloc(initValSz+deltaSz);
730 std::copy(packBg, packEnd, _values->getPointer()+start);
733 for(mcIdType ii = idx+1; ii < _index->getNbOfElems(); ii++)
738 * Replace pack with super index 'superIdx' and index 'idx' with the provided new pack.
739 * Function can be used only for 3-level SkyLine.
741 void MEDCouplingSkyLineArray::replacePack(const mcIdType superIdx, const mcIdType idx, const mcIdType *packBg, const mcIdType *packEnd)
743 checkSuperIndex("replacePack");
744 validSuperIndexAndIndex("replacePack", superIdx, idx);
746 mcIdType * siP(_super_index->getPointer()), *iP(_index->getPointer());
747 mcIdType newSz = ToIdType(std::distance(packBg, packEnd));
748 const mcIdType start = iP[siP[superIdx]+idx], end = iP[siP[superIdx]+idx+1];
751 mcIdType initValSz = _values->getNbOfElems();
752 mcIdType deltaSz = newSz-(end-start); // can be negative
756 _values->reAlloc(initValSz+deltaSz);
757 mcIdType *vP(_values->getPointer());
758 std::copy(vP+end, vP+initValSz, vP+end+deltaSz);
760 _values->reAlloc(initValSz+deltaSz);
764 std::copy(packBg, packEnd, _values->getPointer()+start);
767 for(mcIdType ii = siP[superIdx]+idx+1; ii < _index->getNbOfElems(); ii++)