From: geay Date: Tue, 1 Jul 2014 17:28:10 +0000 (+0200) Subject: first draft for cut with linear cells. X-Git-Tag: V7_5_0a1~2^2~21^2~4 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=5cb0899d84e9d318b8b23e2d3079cb095a3a2824;p=tools%2Fmedcoupling.git first draft for cut with linear cells. --- diff --git a/src/MEDCoupling/MEDCouplingMemArray.cxx b/src/MEDCoupling/MEDCouplingMemArray.cxx index 44a708d7c..c63b51e50 100644 --- a/src/MEDCoupling/MEDCouplingMemArray.cxx +++ b/src/MEDCoupling/MEDCouplingMemArray.cxx @@ -8484,7 +8484,7 @@ DataArrayIntIterator *DataArrayInt::iterator() /*! * Creates a new DataArrayInt containing IDs (indices) of tuples holding value equal to a - * given one. + * given one. The ids are sorted in the ascending order. * \param [in] val - the value to find within \a this. * \return DataArrayInt * - a new instance of DataArrayInt. The caller is to delete this * array using decrRef() as it is no more needed. diff --git a/src/MEDCoupling/MEDCouplingUMesh.cxx b/src/MEDCoupling/MEDCouplingUMesh.cxx index 8cab0b174..b5b81b792 100644 --- a/src/MEDCoupling/MEDCouplingUMesh.cxx +++ b/src/MEDCoupling/MEDCouplingUMesh.cxx @@ -5067,6 +5067,44 @@ DataArrayInt *MEDCouplingUMesh::convertLinearCellsToQuadratic(int conversionType return ret.retn(); } +#if 0 +/*! + * This method only works if \a this has spaceDimension equal to 2 and meshDimension also equal to 2. + * This method allows to modify connectivity of cells in \a this that shares some edges in \a edgeIdsToBeSplit. + * The nodes to be added in those 2D cells are defined by the pair of \a nodeIdsToAdd and \a nodeIdsIndexToAdd. + * Length of \a nodeIdsIndexToAdd is expected to equal to length of \a edgeIdsToBeSplit + 1. + * The node ids in \a nodeIdsToAdd should be valid. Those nodes have to be sorted exactly following exactly the direction of the edge. + * This method can be seen as the opposite method of colinearize2D. + * This method can be lead to create some new nodes if quadratic polygon cells have to be split. In this case the added nodes will be put at the end + * to avoid to modify the numbering of existing nodes. + * + * \param [in] nodeIdsToAdd - the list of node ids to be added (\a nodeIdsIndexToAdd array allows to walk on this array) + * \param [in] nodeIdsIndexToAdd - the entry point of \a nodeIdsToAdd to point to the corresponding nodes to be added. + * \param [in] mesh1Desc - 1st output of buildDescendingConnectivity2 on \a this. + * \param [in] desc - 2nd output of buildDescendingConnectivity2 on \a this. + * \param [in] descI - 3rd output of buildDescendingConnectivity2 on \a this. + * \param [in] revDesc - 4th output of buildDescendingConnectivity2 on \a this. + * \param [in] revDescI - 5th output of buildDescendingConnectivity2 on \a this. + * + * \sa buildDescendingConnectivity2 + */ +void MEDCouplingUMesh::splitSomeEdgesOf2DMesh(const DataArrayInt *nodeIdsToAdd, const DataArrayInt *nodeIdsIndexToAdd, const DataArrayInt *edgeIdsToBeSplit, + const MEDCouplingUMesh *mesh1Desc, const DataArrayInt *desc, const DataArrayInt *descI, const DataArrayInt *revDesc, const DataArrayInt *revDescI) +{ + if(!nodeIdsToAdd || !nodeIdsIndexToAdd || !edgeIdsToBeSplit || !mesh1Desc || !desc || !descI || !revDesc || !revDescI) + throw INTERP_KERNEL::Exception("MEDCouplingUMesh::splitSomeEdgesOf2DMesh : input pointers must be not NULL !"); + nodeIdsToAdd->checkAllocated(); nodeIdsIndexToAdd->checkAllocated(); edgeIdsToBeSplit->checkAllocated(); desc->checkAllocated(); descI->checkAllocated(); revDesc->checkAllocated(); revDescI->checkAllocated(); + if(getSpaceDimension()!=2 || getMeshDimension()!=2) + throw INTERP_KERNEL::Exception("MEDCouplingUMesh::splitSomeEdgesOf2DMesh : this must have spacedim=meshdim=2 !"); + if(mesh1Desc->getSpaceDimension()!=2 || mesh1Desc->getMeshDimension()!=1) + throw INTERP_KERNEL::Exception("MEDCouplingUMesh::splitSomeEdgesOf2DMesh : mesh1Desc must be the explosion of this with spaceDim=2 and meshDim = 1 !"); + //DataArrayInt *out0(0),*outi0(0); + //MEDCouplingUMesh::ExtractFromIndexedArrays(idsInDesc2DToBeRefined->begin(),idsInDesc2DToBeRefined->end(),dd3,dd4,out0,outi0); + //MEDCouplingAutoRefCountObjectPtr out0s(out0),outi0s(outi0); + //out0s=out0s->buildUnique(); out0s->sort(true); +} +#endif + /*! * Implementes \a conversionType 0 for meshes with meshDim = 1, of MEDCouplingUMesh::convertLinearCellsToQuadratic method. * \return a newly created DataArrayInt instance that the caller should deal with containing cell ids of converted cells. @@ -8754,9 +8792,35 @@ MEDCouplingUMesh *MEDCouplingUMesh::Intersect2DMeshes(const MEDCouplingUMesh *m1 return ret.retn(); } +bool IsColinearOfACellOf(const std::vector< std::vector >& intersectEdge1, const std::vector& candidates, int start, int stop, int& retVal) +{ + if(candidates.empty()) + return false; + for(std::vector::const_iterator it=candidates.begin();it!=candidates.end();it++) + { + const std::vector& pool(intersectEdge1[*it]); + int tmp[2]; tmp[0]=start; tmp[1]=stop; + if(std::search(pool.begin(),pool.end(),tmp,tmp+2)!=pool.end()) + { + retVal=*it+1; + return true; + } + tmp[0]=stop; tmp[1]=start; + if(std::search(pool.begin(),pool.end(),tmp,tmp+2)!=pool.end()) + { + retVal=-*it-1; + return true; + } + } + return false; +} + //tony to put in private of MEDCouplingUMesh -MEDCouplingUMesh *BuildMesh1DCutFrom(const MEDCouplingUMesh *mesh1D, const std::vector< std::vector >& intersectEdge2, const DataArrayDouble *coords1, const std::vector& addCoo, const std::map& mergedNodes) +MEDCouplingUMesh *BuildMesh1DCutFrom(const MEDCouplingUMesh *mesh1D, const std::vector< std::vector >& intersectEdge2, const DataArrayDouble *coords1, const std::vector& addCoo, const std::map& mergedNodes, const std::vector< std::vector >& colinear2, const std::vector< std::vector >& intersectEdge1, + MEDCouplingAutoRefCountObjectPtr& idsInRetColinear, MEDCouplingAutoRefCountObjectPtr& idsInMesh1DForIdsInRetColinear) { + idsInRetColinear=DataArrayInt::New(); idsInRetColinear->alloc(0,1); + idsInMesh1DForIdsInRetColinear=DataArrayInt::New(); idsInMesh1DForIdsInRetColinear->alloc(0,1); int nCells(mesh1D->getNumberOfCells()); if(nCells!=(int)intersectEdge2.size()) throw INTERP_KERNEL::Exception("BuildMesh1DCutFrom : internal error # 1 !"); @@ -8768,14 +8832,14 @@ MEDCouplingUMesh *BuildMesh1DCutFrom(const MEDCouplingUMesh *mesh1D, const std:: int offset3(offset2+addCoo.size()/2); std::vector addCooQuad; MEDCouplingAutoRefCountObjectPtr cOut(DataArrayInt::New()),ciOut(DataArrayInt::New()); cOut->alloc(0,1); ciOut->alloc(1,1); ciOut->setIJ(0,0,0); - int tmp[4],cicnt(0); + int tmp[4],cicnt(0),kk(0); for(int i=0;i m; INTERP_KERNEL::Edge *e(MEDCouplingUMeshBuildQPFromEdge2((INTERP_KERNEL::NormalizedCellType)c[ci[i]],c+ci[i]+1,coo2Ptr,m)); const std::vector& subEdges(intersectEdge2[i]); int nbSubEdge(subEdges.size()/2); - for(int j=0;j n1(MEDCouplingUMeshBuildQPNode(subEdges[2*j],coords1->begin(),offset1,coo2Ptr,offset2,addCoo)),n2(MEDCouplingUMeshBuildQPNode(subEdges[2*j+1],coords1->begin(),offset1,coo2Ptr,offset2,addCoo)); MEDCouplingAutoRefCountObjectPtr e2(e->buildEdgeLyingOnMe(n1,n2)); @@ -8806,6 +8870,12 @@ MEDCouplingUMesh *BuildMesh1DCutFrom(const MEDCouplingUMesh *mesh1D, const std:: cOut->insertAtTheEnd(tmp,tmp+3); ciOut->pushBackSilent(cicnt); } + int tmp00; + if(IsColinearOfACellOf(intersectEdge1,colinear2[i],tmp[1],tmp[2],tmp00)) + { + idsInRetColinear->pushBackSilent(kk); + idsInMesh1DForIdsInRetColinear->pushBackSilent(tmp00); + } } for(std::map::const_iterator it2=m.begin();it2!=m.end();it2++) (*it2).first->decrRef(); @@ -8823,10 +8893,122 @@ MEDCouplingUMesh *BuildMesh1DCutFrom(const MEDCouplingUMesh *mesh1D, const std:: return ret.retn(); } -/*MEDCouplingUMesh *BuildMesh2DCutFrom(const MEDCouplingUMesh *mesh2D, const MEDCouplingUMesh *splitMesh1D, const DataArrayInt *elts, const DataArrayInt *eltsI) +MEDCouplingUMesh *BuildRefined2DCell(const DataArrayDouble *coords, const int *descBg, const int *descEnd, const std::vector< std::vector >& intersectEdge1) { + std::vector allEdges; + for(const int *it2(descBg);it2!=descEnd;it2++) + { + const std::vector& edge1(intersectEdge1[std::abs(*it2)-1]); + if(*it2>0) + allEdges.insert(allEdges.end(),edge1.begin(),edge1.end()); + else + allEdges.insert(allEdges.end(),edge1.rbegin(),edge1.rend()); + } + std::size_t nb(allEdges.size()); + if(nb%2!=0) + throw INTERP_KERNEL::Exception("BuildRefined2DCell : internal error 1 !"); + std::size_t nbOfEdgesOf2DCellSplit(nb/2); + MEDCouplingAutoRefCountObjectPtr ret(MEDCouplingUMesh::New("",2)); + ret->setCoords(coords); + ret->allocateCells(1); + std::vector connOut(nbOfEdgesOf2DCellSplit); + for(std::size_t kk=0;kkinsertNextCell(INTERP_KERNEL::NORM_POLYGON,connOut.size(),&connOut[0]); + return ret.retn(); +} -}*/ +MEDCouplingUMesh *BuildMesh2DCutFrom(int cellIdInMesh2D, const MEDCouplingUMesh *mesh2D, const MEDCouplingUMesh *splitMesh1D, + const int *descBg, const int *descEnd, const std::vector< std::vector >& intersectEdge1, int offset, + MEDCouplingAutoRefCountObjectPtr& idsLeftRight) +{ + idsLeftRight=DataArrayInt::New(); idsLeftRight->alloc(splitMesh1D->getNumberOfCells(),2); + int *idsLeftRightPtr(idsLeftRight->getPointer()); + MEDCouplingAutoRefCountObjectPtr ret(MEDCouplingUMesh::New("",2)); + ret->setCoords(splitMesh1D->getCoords()); + ret->allocateCells(); + int nbCellsInSplitMesh1D(splitMesh1D->getNumberOfCells()); + if(nbCellsInSplitMesh1D==0) + throw INTERP_KERNEL::Exception("BuildMesh2DCutFrom : internal error ! input 1D mesh must have at least one cell !"); + const int *cSplitPtr(splitMesh1D->getNodalConnectivity()->begin()),*ciSplitPtr(splitMesh1D->getNodalConnectivityIndex()->begin()); + // + std::vector allEdges; + for(const int *it(descBg);it!=descEnd;it++) + { + const std::vector& edge1(intersectEdge1[std::abs(*it)-1]); + if(*it>0) + allEdges.insert(allEdges.end(),edge1.begin(),edge1.end()); + else + allEdges.insert(allEdges.end(),edge1.rbegin(),edge1.rend()); + } + std::size_t nb(allEdges.size()),ii,jj; + if(nb%2!=0) + throw INTERP_KERNEL::Exception("BuildMesh2DCutFrom : internal error 2 !"); + std::size_t nbOfEdgesOf2DCellSplit(nb/2); + std::vector edge1Bis(nb*2); + std::copy(allEdges.begin(),allEdges.end(),edge1Bis.begin()); + std::copy(allEdges.begin(),allEdges.end(),edge1Bis.begin()+nb); + // + for(int iStart=0;iStart single output cell + std::vector connOut(nbOfEdgesOf2DCellSplit); + for(std::size_t kk=0;kkinsertNextCell(INTERP_KERNEL::NORM_POLYGON,connOut.size(),&connOut[0]); + for(int mm=iStart;mm connOutLeft(1,edge1Bis[2*ii]),connOutRight(1,edge1Bis[2*jj+1]); + for(std::size_t k=ii;k=iStart;ik--) + connOutLeft.push_back(cSplitPtr[ciSplitPtr[ik]+1]); + for(std::size_t k=jj+1;kinsertNextCell(INTERP_KERNEL::NORM_POLYGON,connOutLeft.size()-1,&connOutLeft[1]); + ret->insertNextCell(INTERP_KERNEL::NORM_POLYGON,connOutRight.size()-1,&connOutRight[1]); + for(int mm=iStart;mm m1Desc(mesh2D->buildDescendingConnectivity2(desc1,descIndx1,revDesc1,revDescIndx1)); std::map mergedNodes; Intersect1DMeshes(m1Desc,mesh1D,eps,intersectEdge1,colinear2,subDiv2,addCoo,mergedNodes); + // use mergeNodes to fix intersectEdge1 + for(std::vector< std::vector >::iterator it0=intersectEdge1.begin();it0!=intersectEdge1.end();it0++) + { + std::size_t n((*it0).size()/2); + int eltStart((*it0)[0]),eltEnd((*it0)[2*n-1]); + std::map::const_iterator it1; + it1=mergedNodes.find(eltStart); + if(it1!=mergedNodes.end()) + (*it0)[0]=(*it1).second; + it1=mergedNodes.find(eltEnd); + if(it1!=mergedNodes.end()) + (*it0)[2*n-1]=(*it1).second; + } + // MEDCouplingAutoRefCountObjectPtr addCooDa(DataArrayDouble::New()); addCooDa->useArray(&addCoo[0],false,C_DEALLOC,(int)addCoo.size()/2,2); // Step 2: re-order newly created nodes according to the ordering found in m2 @@ -8871,11 +9067,99 @@ void MEDCouplingUMesh::Intersect2DMeshWith1DLine(const MEDCouplingUMesh *mesh2D, BuildIntersectEdges(m1Desc,mesh1D,addCoo,subDiv2,intersectEdge2); subDiv2.clear(); // - MEDCouplingAutoRefCountObjectPtr ret1(BuildMesh1DCutFrom(mesh1D,intersectEdge2,mesh2D->getCoords(),addCoo,mergedNodes)); - MEDCouplingAutoRefCountObjectPtr baryRet1(ret1->getBarycenterAndOwner()); + MEDCouplingAutoRefCountObjectPtr idsInRet1Colinear,idsInDescMesh2DForIdsInRetColinear; + MEDCouplingAutoRefCountObjectPtr ret2(DataArrayInt::New()); ret2->alloc(0,1); + MEDCouplingAutoRefCountObjectPtr ret1(BuildMesh1DCutFrom(mesh1D,intersectEdge2,mesh2D->getCoords(),addCoo,mergedNodes,colinear2,intersectEdge1, + idsInRet1Colinear,idsInDescMesh2DForIdsInRetColinear)); + MEDCouplingAutoRefCountObjectPtr ret3(DataArrayInt::New()); ret3->alloc(ret1->getNumberOfCells()*2,1); ret3->fillWithValue(-1); ret3->rearrange(2); + MEDCouplingAutoRefCountObjectPtr idsInRet1NotColinear(idsInRet1Colinear->buildComplement(ret1->getNumberOfCells())); + // deal with cells in mesh2D that are not cut but only some of their edges are + MEDCouplingAutoRefCountObjectPtr idsInDesc2DToBeRefined(idsInDescMesh2DForIdsInRetColinear->deepCpy()); + idsInDesc2DToBeRefined->abs(); idsInDesc2DToBeRefined->applyLin(1,-1); + idsInDesc2DToBeRefined=idsInDesc2DToBeRefined->buildUnique(); + MEDCouplingAutoRefCountObjectPtr out0s;//ids in mesh2D that are impacted by the fact that some edges of \a mesh1D are part of those cells + if(!idsInDesc2DToBeRefined->empty()) + { + DataArrayInt *out0(0),*outi0(0); + MEDCouplingUMesh::ExtractFromIndexedArrays(idsInDesc2DToBeRefined->begin(),idsInDesc2DToBeRefined->end(),dd3,dd4,out0,outi0); + MEDCouplingAutoRefCountObjectPtr outi0s(outi0); + out0s=out0; + out0s=out0s->buildUnique(); + out0s->sort(true); + } + // + MEDCouplingAutoRefCountObjectPtr ret1NonCol(static_cast(ret1->buildPartOfMySelf(idsInRet1NotColinear->begin(),idsInRet1NotColinear->end()))); + MEDCouplingAutoRefCountObjectPtr baryRet1(ret1NonCol->getBarycenterAndOwner()); MEDCouplingAutoRefCountObjectPtr elts,eltsIndex; mesh2D->getCellsContainingPoints(baryRet1->begin(),baryRet1->getNumberOfTuples(),eps,elts,eltsIndex); + MEDCouplingAutoRefCountObjectPtr eltsIndex2(eltsIndex->deltaShiftIndex()); + if(eltsIndex2->count(0)+eltsIndex2->count(1)!=ret1NonCol->getNumberOfCells()) + throw INTERP_KERNEL::Exception("Intersect2DMeshWith1DLine : internal error 1 !"); + MEDCouplingAutoRefCountObjectPtr cellsToBeModified(elts->buildUnique()); + MEDCouplingAutoRefCountObjectPtr untouchedCells(cellsToBeModified->buildComplement(mesh2D->getNumberOfCells())); + if((DataArrayInt *)out0s) + untouchedCells=untouchedCells->buildSubstraction(out0s);//if some edges in ret1 are colinear to descending mesh of mesh2D remove cells from untouched one + std::vector< MEDCouplingAutoRefCountObjectPtr > outMesh2DSplit; + if(!untouchedCells->empty()) + { + outMesh2DSplit.push_back(static_cast(mesh2D->buildPartOfMySelf(untouchedCells->begin(),untouchedCells->end()))); + outMesh2DSplit.back()->setCoords(ret1->getCoords()); + ret2->pushBackValsSilent(untouchedCells->begin(),untouchedCells->end()); + } + if((DataArrayInt *)out0s) + {// here dealing with cells in out0s but not in cellsToBeModified + MEDCouplingAutoRefCountObjectPtr fewModifiedCells(out0s->buildSubstraction(cellsToBeModified)); + const int *rdptr(dd3->begin()),*rdiptr(dd4->begin()),*dptr(dd1->begin()),*diptr(dd2->begin()); + for(const int *it=fewModifiedCells->begin();it!=fewModifiedCells->end();it++) + { + outMesh2DSplit.push_back(BuildRefined2DCell(ret1->getCoords(),dptr+diptr[*it],dptr+diptr[*it+1],intersectEdge1)); + } + int offset(ret2->getNumberOfTuples()); + ret2->pushBackValsSilent(fewModifiedCells->begin(),fewModifiedCells->end()); + MEDCouplingAutoRefCountObjectPtr partOfRet3(DataArrayInt::New()); partOfRet3->alloc(2*idsInRet1Colinear->getNumberOfTuples(),1); + partOfRet3->fillWithValue(-1); partOfRet3->rearrange(2); + int kk(0),*ret3ptr(partOfRet3->getPointer()); + for(const int *it=idsInDescMesh2DForIdsInRetColinear->begin();it!=idsInDescMesh2DForIdsInRetColinear->end();it++,kk++) + { + int faceId(std::abs(*it)-1); + for(const int *it2=rdptr+rdiptr[faceId];it2!=rdptr+rdiptr[faceId+1];it2++) + { + int tmp(fewModifiedCells->locateValue(*it2)); + if(tmp!=-1) + { + if(std::find(dptr+diptr[*it2],dptr+diptr[*it2+1],-(*it))!=dptr+diptr[*it2+1]) + ret3ptr[2*kk]=tmp+offset; + if(std::find(dptr+diptr[*it2],dptr+diptr[*it2+1],(*it))!=dptr+diptr[*it2+1]) + ret3ptr[2*kk+1]=tmp+offset; + } + else + throw INTERP_KERNEL::Exception("MEDCouplingUMesh::Intersect2DMeshWith1DLine : internal error 1 !"); + } + } + ret3->setPartOfValues3(partOfRet3,idsInRet1Colinear->begin(),idsInRet1Colinear->end(),0,2,1,true); + } + for(const int *it=cellsToBeModified->begin();it!=cellsToBeModified->end();it++) + { + MEDCouplingAutoRefCountObjectPtr idsNonColPerCell(elts->getIdsEqual(*it)); + MEDCouplingAutoRefCountObjectPtr idsNonColPerCell2(idsInRet1NotColinear->selectByTupleId(idsNonColPerCell->begin(),idsNonColPerCell->end())); + MEDCouplingAutoRefCountObjectPtr partOfMesh1CuttingCur2DCell(static_cast(ret1NonCol->buildPartOfMySelf(idsNonColPerCell->begin(),idsNonColPerCell->end()))); + MEDCouplingAutoRefCountObjectPtr partOfRet3; + MEDCouplingAutoRefCountObjectPtr splitOfOneCell(BuildMesh2DCutFrom(*it,mesh2D,partOfMesh1CuttingCur2DCell,dd1->begin()+dd2->getIJ(*it,0),dd1->begin()+dd2->getIJ((*it)+1,0),intersectEdge1,ret2->getNumberOfTuples(),partOfRet3)); + ret3->setPartOfValues3(partOfRet3,idsNonColPerCell2->begin(),idsNonColPerCell2->end(),0,2,1,true); + outMesh2DSplit.push_back(splitOfOneCell); + for(int i=0;igetNumberOfCells();i++) + ret2->pushBackSilent(*it); + } + // + std::size_t nbOfMeshes(outMesh2DSplit.size()); + std::vector tmp(nbOfMeshes); + for(std::size_t i=0;i