-// Copyright (C) 2007-2020 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2022 CEA/DEN, EDF R&D
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
//std::cout<<"no family found!!! - groups of "<<fam1<<" and "<<fam2<<std::endl;
QString tmp;
//fam1 positive for nodes negative faces & mailles
- bool oktmp=get_number_of_new_family(fam1,&ires,&tmp);
+ /*bool oktmp=*/get_number_of_new_family(fam1,&ires,&tmp);
fend::iterator it;
for (it=gb.begin(); it!=gb.end(); ++it){
this->add(tmp,(*it).first);
{
QString nom1,nom2;
fagr::iterator it1,it2;
- nom1=nom1.sprintf("%d",fam1);
+ nom1=nom1.sprintf("%d",(int)fam1);
it1=fam.find(nom1);
- nom2=nom2.sprintf("%d",fam2);
+ nom2=nom2.sprintf("%d",(int)fam2);
it2=fam.find(nom2);
if ( (it1==fam.end())||(it2==fam.end()) ) {
std::cerr<<"***fuse_goups*** non existing family "<<fam1<<" or "<<fam2<<std::endl;
//************************************
CVWtab::~CVWtab()
{
- bool ok;
+ //bool ok;
//std::cout<<" destructor CVWtab *** "<<this->filename<<std::endl;
- ok=this->CVWtab_deallocate();
+ /*ok=*/this->CVWtab_deallocate();
//remove temporary file
if (this->filename!="_NO_FILE")
{
std::fstream Ff(FileName.toLatin1().constData(),std::ios_base::in);
std::string line;
long i,count,nbneighbour,ineighbour;
- bool ok;
+ //bool ok;
if (!Ff.is_open())
{
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("MS%ld NE%ld VE SE",this->nofile,ineighbour);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
if (!CVW_FindString("<edges count=",Ff,count)) return false;
if (count>0){
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("MS%ld NE%ld ED SE",this->nofile,ineighbour);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
if (!CVW_FindString("<faces count=",Ff,count)) return false;
if (count>0){
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("MS%ld NE%ld FA SE",this->nofile,ineighbour);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
if (!CVW_FindString("<elements count=",Ff,count)) return false;
if (count>0){
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("MS%ld NE%ld EL SE",this->nofile,ineighbour);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
}
QString tmp;
std::fstream Ff(FileName.toLatin1().constData(),std::ios_base::in);
std::string line;
- long i,count,meshversion,maxline;
- bool ok;
+ long maxline;
if (!Ff.is_open())
{
std::fstream Ff(FileName.toLatin1().constData(),std::ios_base::in);
std::string line;
long count;
- bool ok;
+ //bool ok;
if (!Ff.is_open())
{
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld VE",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
if (!CVW_FindString("<edges count=",Ff,count)) return false;
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld ED",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
if (!CVW_FindString("<faces count=",Ff,count)) return false;
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld FA",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
if (!CVW_FindString("<elements count=",Ff,count)) return false;
CVWtab *montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld EL",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
}
//Ferme le fichier :
Ff.close();
long vert=0,edge=0,tria=0,tetr=0,count=0;
med_int *tmint;
CVWtab *montab;
- bool ok;
+ //bool ok;
if (verbose>=6) std::cout<<"Read file '"<<FileName.toLatin1().constData()<<std::endl;
if (!Ff.is_open())
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld VE",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
count=edge;
tmint=new med_int[count];
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld ED",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
count=tria;
tmint=new med_int[count];
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld FA",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
count=tetr;
tmint=new med_int[count];
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld EL",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
//Ferme le fichier :
Ff.close();
long count=0;
med_int *tmint;
CVWtab *montab;
- bool ok;
+ //bool ok;
//Simule les donnees :
std::cout<<"Default Global numerotation nb verts "<<vert<<" nb edges "<<edge<<" nb trias "<<tria<<" nb tetras "<<tetr<<std::endl;
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld VE",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
count=edge;
tmint=new med_int[count];
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld ED",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
count=tria;
tmint=new med_int[count];
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld FA",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
count=tetr;
tmint=new med_int[count];
montab=new CVWtab(count,tmint);
tmp=tmp.sprintf("GL%ld EL",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
return true;
}
QString tmp;
std::fstream Ff(FileName.toLatin1().constData(),std::ios_base::in);
long ne,np,npfixe,subnumber,reste;
- bool ok;
+ //bool ok;
if (!Ff.is_open()){
std::cerr<<"Problem File '"<<FileName.toLatin1().constData()<<"' not open\n"<<std::endl;
CVWtab *montab=new CVWtab(ne*4,tmint);
tmp=tmp.sprintf("NB%ld EV",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
med_float *tmflo=new med_float[np*3];
for (int i=0; i<np*3; i++) Ff>>tmflo[i];
montab=new CVWtab(np*3,tmflo);
tmp=tmp.sprintf("NB%ld VC",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
Ff>>subnumber;
if (verbose>2) std::cout<<"NumberOfSubdomains="<<subnumber<<std::endl;
montab=new CVWtab(subnumber*3,tmint);
tmp=tmp.sprintf("NB%ld SN",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
//swap on file if too big for memory in one cpu
//default 1GOctet/8(for double)/10(for arrays in memory at the same time)
//but NOT parameter option of tepal
//idem ReadFileNOBOITE with read unformatted
{
- bool ok;
+ //bool ok;
QString tmp;
std::cerr<<"Problem function ReadFileNOBOITEB\n"
<<"(no FORTRAN binary format files in tepal)\n\n";
CVWtab *montab=new CVWtab(ne*4,tmint);
tmp=tmp.sprintf("NB%ld EV",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
fread(&reste,sizeof(long),1,Ff);
//std::cout<<"info "<<reste<<" "<<np*3<<" "<<sizeof(med_float)<<std::endl;
montab=new CVWtab(np*3,tmflo);
tmp=tmp.sprintf("NB%ld VC",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
fread(&reste,sizeof(long),1,Ff);
fread(&subnumber,sizeof(long),1,Ff);
delete tlong;
montab=new CVWtab(subnumber*3,tmint);
tmp=tmp.sprintf("NB%ld SN",this->nofile);
- ok=this->insert_key(tmp,montab);
+ /*ok=*/this->insert_key(tmp,montab);
//swap on file if too big for memory in one cpu
//default 1GOctet/8(for double)/10(for arrays in memory at the same time)
//swap on file if not yet and if size greater than ifgreaterthan
{
long nb=0;
- bool ok;
+ //bool ok;
QHashIterator<QString,CVWtab*> it(this->mestab);
while ( it.hasNext() ) {
it.next();
it.key().toLatin1().constData()<<
" size "<<it.value()->size<<">"<<ifgreaterthan<<std::endl;
//free memory
- ok=SwapOnFile(it.key(),this->path,it.value(),this->verbose);
+ /*ok=*/SwapOnFile(it.key(),this->path,it.value(),this->verbose);
}
}
}
//si tableaux contenus on dimension superieure
//alors swap disque dans getenv(tmp) fichier temporaire binaire
{
- bool ok;
+ //bool ok;
if (verbose>4)
std::cout<<"insert key "<<key.toLatin1().constData()<<
" size="<<tab->size<<std::endl;
if (this->nbelem_limit_swap<tab->size) {
if (verbose>3) std::cout<<"insert key automatic SwapOnFile "<<
key.toLatin1().constData()<<std::endl;
- ok=SwapOnFile(key,this->path,tab,this->verbose);
+ /*ok=*/SwapOnFile(key,this->path,tab,this->verbose);
}
this->mestab.insert(key,tab);
return true;
if (!cooskin) return false;
if (verbose>4)std::cout<<"NumberVerticesSKIN="<<cooskin->size/3<<std::endl;
//ici pourrait creer BBtree sur skin
- for (int ifile=1; ifile<=this->nbfiles; ifile++)
+ for (long ifile=1; ifile<=this->nbfiles; ifile++)
{
key1=key1.sprintf("NB%ld VC",ifile);
coodom=this->restore_key(key1);
med_int majeur,mineur,release;
//Quelle version de MED est utilisee
MEDlibraryNumVersion(&majeur,&mineur,&release);
- if (verbose>0) fprintf(stdout,"File write %s with MED V%d.%d.%d\n",filemaster.c_str(),majeur,mineur,release);
+ if (verbose>0) fprintf(stdout,"File write %s with MED V%d.%d.%d\n",filemaster.c_str(),(int)majeur,(int)mineur,(int)release);
node = xmlNewChild(root_node, 0, BAD_CAST "version",0);
//xmlNewProp(node, BAD_CAST "maj", BAD_CAST int2string2(majeur).c_str());
xmlNewProp(node, BAD_CAST "maj", BAD_CAST i2a(majeur).c_str());
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!all calls add xml idom node
{
- fprintf(stdout,"Xml node write %s idom %d\n",filemaster.c_str(), idom);
+ fprintf(stdout,"Xml node write %s idom %d\n",filemaster.c_str(), (int)idom);
char *hostname = getenv("HOSTNAME");
node = xmlNewChild(files_node,0,BAD_CAST "subfile",0);
xmlNewProp(node, BAD_CAST "id", BAD_CAST i2a(idom).c_str());
}
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!last call
- fprintf(stdout,"xml node idom %d/%d nb tetras total %d\n", idom, nbfilestot, nbtetrastotal);
+ fprintf(stdout,"xml node idom %d/%ld nb tetras total %ld\n", (int)idom, nbfilestot, nbtetrastotal);
if (idom==nbfilestot)
{
- fprintf(stdout,"File write %s as last idom nb tetras total %d\n",filemaster.c_str(), nbtetrastotal);
+ fprintf(stdout,"File write %s as last idom nb tetras total %ld\n",filemaster.c_str(), nbtetrastotal);
node2 = xmlNewChild(info_node, 0, BAD_CAST "global",0);
xmlNewProp(node2, BAD_CAST "tetrahedra_number", BAD_CAST i2a(nbtetrastotal).c_str());
//save masterfile
//************************************
-bool ghs3dprl_mesh_wrap::Write_MEDfiles_v2(bool deletekeys)
+bool ghs3dprl_mesh_wrap::Write_MEDfiles_v2(bool /*deletekeys*/)
//deletekeys=true to delete non utils keys and arrays "au fur et a mesure"
{
- bool ok=true,oktmp;
+ bool ok=true/*,oktmp*/;
QString tmp,cmd;
char description[MED_COMMENT_SIZE];
char dtunit[MED_SNAME_SIZE+1]="_NO_UNIT";
}
//create file resume DOMAIN.joints.med of all joints for quick display (...may be...)
- tmp=path+medname+tmp.sprintf("_joints.med",idom);
- charendnull(distfilename,tmp,MED_COMMENT_SIZE);
- fidjoint=MEDfileOpen(distfilename,MED_ACC_CREAT);
- if (fidjoint<0) std::cerr<<"Problem MEDfileOpen "<<distfilename<<std::endl;
- if (verbose>0) std::cout<<"CreateMEDFile for all joints <"<<distfilename<<">\n";
+ if (! for_multithread)
+ {
+ tmp=path+medname+tmp.sprintf("_joints.med");
+ charendnull(distfilename,tmp,MED_COMMENT_SIZE);
+ fidjoint=MEDfileOpen(distfilename,MED_ACC_CREAT);
+ if (fidjoint<0) std::cerr<<"Problem MEDfileOpen "<<distfilename<<std::endl;
+ if (verbose>0) std::cout<<"CreateMEDFile for all joints <"<<distfilename<<">\n";
+ }
//copy file source/GHS3DPRL_skin.med as destination/DOMAIN.skin.med
tmp=path+medname+"_skin.med";
//define family Group_of_New_Nodes (which not exists before tetrahedra)
famallnodes=0;
if (QString("All_Nodes").contains(deletegroups)==0){
- oktmp=families.get_number_of_new_family(1,&famallnodes,&tmp);
+ /*oktmp=*/families.get_number_of_new_family(1,&famallnodes,&tmp);
families.add(tmp,"All_Nodes");
}
else if (verbose>3) std::cout<<"--deletegroups matches \"All_Nodes\"\n";
famalltria3=0;
if (QString("All_Faces").contains(deletegroups)==0){
- oktmp=families.get_number_of_new_family(-1,&famalltria3,&tmp);
+ /*oktmp=*/families.get_number_of_new_family(-1,&famalltria3,&tmp);
families.add(tmp,"All_Faces");
}
else if (verbose>3) std::cout<<"--deletegroups matches \"All_Faces\"\n";
famalltetra4=0;
if (QString("All_Tetrahedra").contains(deletegroups)==0){
- oktmp=families.get_number_of_new_family(-1,&famalltetra4,&tmp);
+ /*oktmp=*/families.get_number_of_new_family(-1,&famalltetra4,&tmp);
families.add(tmp,"All_Tetrahedra");
}
else if (verbose>3) std::cout<<"--deletegroups matches \"All_Tetrahedra\"\n";
famnewnodes=0;
if (QString("New_Nodes").contains(deletegroups)==0){
- oktmp=families.get_number_of_new_family(1,&famnewnodes,&tmp);
+ /*oktmp=*/families.get_number_of_new_family(1,&famnewnodes,&tmp);
families.add(tmp,"New_Nodes");
}
else if (verbose>3) std::cout<<"--deletegroups matches \"New_Nodes\"\n";
famnewtria3=0;
if (QString("New_Faces").contains(deletegroups)==0){
- oktmp=families.get_number_of_new_family(-1,&famnewtria3,&tmp);
+ /*oktmp=*/families.get_number_of_new_family(-1,&famnewtria3,&tmp);
families.add(tmp,"New_Faces");
}
else if (verbose>3) std::cout<<"--deletegroups matches \"New_Faces\"\n";
famnewtetra4=0;
if (QString("New_Tetrahedra").contains(deletegroups)==0){
- oktmp=families.get_number_of_new_family(-1,&famnewtetra4,&tmp);
+ /*oktmp=*/families.get_number_of_new_family(-1,&famnewtetra4,&tmp);
families.add(tmp,"New_Tetrahedra");
}
else if (verbose>3) std::cout<<"--deletegroups matches \"New_Tetrahedra\"\n";
//restore initial context of families
if (idom>1) families=intermediatesfamilies;
//if (idom>1) continue;
- tmp=path+medname+tmp.sprintf("_%d.med",idom);
+ tmp=path+medname+tmp.sprintf("_%d.med",(int)idom);
charendnull(distfilename,tmp,MED_COMMENT_SIZE);
//std::cout<<"<"<<distfilename<<">"<<std::endl;
}
//create mesh
- tmp=medname+tmp.sprintf("_%d",idom);
+ tmp=medname+tmp.sprintf("_%d",(int)idom);
charendnull(nomfinal,tmp,MED_NAME_SIZE);
- tmp=tmp.sprintf("domain %d among %d",idom,nbfilestot);
+ tmp=tmp.sprintf("domain %d among %ld",(int)idom,nbfilestot);
charendnull(description,tmp,MED_COMMENT_SIZE);
if (verbose>4) std::cout<<"Description : "<<description<<std::endl;
}
MEDfileClose(fid); //no error
- //master.xml writings
- oktmp=Write_masterxmlMEDfile();
+ //master.xml writings if mpi mode
+ if (!for_multithread)
+ /*oktmp=*/Write_masterxmlMEDfile();
continue; //and loop on others domains
erreur: //error
}
- MEDfileClose(fidjoint); //no error
+ if (! for_multithread)
+ MEDfileClose(fidjoint); //no error
if (verbose>0)std::cout<<"\nTotalNumberOftetrahedra="<<nbtetrastotal<<std::endl;
ok = true;
{
bool ok=true;
QString tmp,key,key1,key2,key3;
- CVWtab *tab,*tab1,*tab2,*tab3;
+ CVWtab *tab,*tab1,*tab2/*,*tab3*/;
med_int i,j,*arrayi;
- int xx;
+ //int xx;
//writing node(vertices) coordinates
//NBx VC=files.NoBoite Vertex Coordinates
- key=key.sprintf("NB%d VC",idom); //files.NoBoite Vertex Coordinates
+ key=key.sprintf("NB%d VC",(int)idom); //files.NoBoite Vertex Coordinates
tab=this->restore_key(key); //tab1=this->mestab[key1];
if (!tab) {
if (!for_tetrahpc) {
tab=this->restore_key(key); //tab1=this->mestab[key1];
if (!tab) return false;
}
- tmp=tmp.sprintf("NB%d SN",idom);
+ tmp=tmp.sprintf("NB%d SN",(int)idom);
//qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
nbnodes=this->nbvert; // for current idom
err=MEDmeshNodeCoordinateWr(fid,nomfinal,MED_NO_DT,MED_NO_IT,0.,MED_FULL_INTERLACE,nbnodes,tab->tmflo);
// if (!for_multithread)
{
- key1=key1.sprintf("GL%d VE",idom); //global numerotation
+ key1=key1.sprintf("GL%d VE",(int)idom); //global numerotation
tab1=this->restore_key(key1); //tab1=this->mestab[key1];
if (!tab1) {
if (!for_tetrahpc) {
}
if (nbnodes!=tab1->size){std::cerr<<"Problem size GLi VE!=nbnodes!"<<std::endl; return false;}
- key2=key2.sprintf("SKIN_VERTICES_FAMILIES",idom); //on global numerotation
+ key2=key2.sprintf("SKIN_VERTICES_FAMILIES"); //on global numerotation
tab2=this->restore_key(key2); //tab1=this->mestab[key1];
med_int nbskin=0;
- if (tab2) med_int nbskin=tab2->size;
+ if (tab2) nbskin=tab2->size;
//for (i=0; i<nbskin; i++) std::cout<<i<<" "<<tab2->tmint[i]<<std::endl;
//set families of nodes existing in GHS3DPRL_skin.med
return ok;
}
-/*
//************************************
+/*
bool ghs3dprl_mesh_wrap::set_one_more_family_old(med_int *fami, med_int *more, med_int nb)
//fuse array of med_int families more et fami as kind of groups
//because there are possibilities of intersections
//because there are possibilities of intersections
{
QString tmp;
- med_int i,ii,j,newfam,morfam,oldfam,morfami,oldfami,i_zero,nb_fam,nb_max,nb_tot,nb_mess;
+ med_int i,ii,newfam,morfam,oldfam,morfami,oldfami,i_zero,nb_fam,nb_max,nb_tot,nb_mess;
med_int *newfami;
nb_fam=families.fam.size(); //on families negative and positive
{
bool ok=true;
QString tmp,key,key1,key2,key3;
- CVWtab *tab,*tab1,*tab2,*tab3;
- med_int ii,i,j,*arrayi;
- int xx;
+ CVWtab *tab1,*tab2;
+ med_int /*ii,*/i,j,*arrayi;
+ //int xx;
//writing connectivity of faces triangles of wrap by nodes
- key1=key1.sprintf("FC%d",idom); //files.FaCes faces (wrap and triangles only)
+ key1=key1.sprintf("FC%d",(int)idom); //files.FaCes faces (wrap and triangles only)
tab1=this->restore_key(key1); //tab1=this->mestab[key1];
if (!tab1) {
tmp=pathini+casename+tmp.sprintf(format.toLatin1().constData(),nbfilestot,idom)+".faces";
//GLx FA=files.GLo FAces
// if (!for_multithread)
{
- key1=key1.sprintf("GL%d FA",idom);
+ key1=key1.sprintf("GL%d FA",(int)idom);
tab1=this->restore_key(key1); //tab1=this->mestab[key1];
if (nbtria3!=tab1->size){std::cerr<<"Problem size GLi FA!=nbtria3!"<<std::endl; return false;}
- key2=key2.sprintf("SKIN_TRIA3_FAMILIES",idom); //on global numerotation
+ key2=key2.sprintf("SKIN_TRIA3_FAMILIES"); //on global numerotation
tab2=this->restore_key(key2); //tab1=this->mestab[key1];
med_int nbskin=0;
if (tab2) nbskin=tab2->size;
err=MEDmeshGlobalNumberWr(fid,nomfinal,MED_NO_DT,MED_NO_IT,MED_CELL,MED_TRIA3,tab1->size,tab1->tmint);
if (err<0){std::cerr<<"Problem MEDmeshGlobalNumberWr faces"<<std::endl; return false;}
- //xx=this->remove_key_mesh_wrap(QRegExp("FC*",true,true));
- tmp=tmp.sprintf("GL%d FA",idom);
- //qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
- tmp=tmp.sprintf("GL%d VE",idom);
- //qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ ///*xx=*/this->remove_key_mesh_wrap(QRegExp("FC*",true,true));
+ tmp=tmp.sprintf("GL%d FA",(int)idom);
+ //qt3 /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ tmp=tmp.sprintf("GL%d VE",(int)idom);
+ //qt3 /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
}
return ok;
bool ok=true;
QString tmp,namejoint,key,key1,key2;
CVWtab *tab,*tab1,*tab2;
- med_int ineig,ii,jj,i,j,k,*arrayi,nb,famjoint,*fammore,*inodes,*arrayfaces;
+ med_int ineig,ii,jj,i,j,k,*arrayi,nb,famjoint,*inodes,*arrayfaces;
med_float *arraynodes;
char namejnt[MED_NAME_SIZE+1]; //no more 32
char namedist[MED_NAME_SIZE+1];
char descjnt[MED_COMMENT_SIZE+1];
- med_int numfam_ini_wrap=100;
+ //med_int numfam_ini_wrap=100;
joints_node=xmlNewNode(NULL, BAD_CAST "joints"); //masterfile.xml
med_int nbjoints=0,nbnodesneig,nbtria3neig;
std::string sjoints=""; //which domains are neighbourg
- int xx;
+ //int xx;
char dtunit[MED_SNAME_SIZE+1]="_NO_UNIT";
char axisname[MED_SNAME_SIZE*3+1]="x y z ";
char axisunit[MED_SNAME_SIZE*3+1]="_NO_UNIT _NO_UNIT _NO_UNIT ";
- tmp=tmp.sprintf("MS%d *",idom);
+ tmp=tmp.sprintf("MS%d *",(int)idom);
//read file .msg if not done
//qt3 if (this->nb_key_mesh_wrap(QRegExp(tmp,true,true))<=0) {
if (this->nb_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp))<=0) {
//!*************nodes
//std::cout<<"\n nodes joints\n";
- key1=key1.sprintf("MS%d NE%d VE SE",idom,ineig); //SE or RE identicals
+ key1=key1.sprintf("MS%d NE%d VE SE",(int)idom,(int)ineig); //SE or RE identicals
tab1=restore_key(key1);
if (!tab1) continue; //case (ifile,ineig) are not neighbours=>no joints
- key1=key1.sprintf("MS%d NE%d VE SE",ineig,idom); //SE or RE identicals
+ key1=key1.sprintf("MS%d NE%d VE SE",(int)ineig,(int)idom); //SE or RE identicals
tab2=this->restore_key(key1);
//if not yet loaded (first time) try to load necessary file msg of neighbourg
if (!tab2) {
sjoints=sjoints+" "+i2a(ineig);
if (verbose>4)
std::cout<<"NumberOfNodesOfJoint_"<<idom<<"_"<<ineig<<"="<<nb<<std::endl;
- namejoint=namejoint.sprintf("JOINT_%d_%d_Nodes",idom,ineig);
+ namejoint=namejoint.sprintf("JOINT_%d_%d_Nodes",(int)idom,(int)ineig);
strcpy(namejnt,namejoint.toLatin1().constData());
- tmp=tmp.sprintf("JOINT_%d_%d among %d domains of ",idom,ineig,nbfilestot)+nomfinal;
+ tmp=tmp.sprintf("JOINT_%d_%d among %ld domains of ",(int)idom,(int)ineig,nbfilestot)+nomfinal;
strcpy(descjnt,tmp.toLatin1().constData());
- tmp=medname+tmp.sprintf("_%d",ineig);
+ tmp=medname+tmp.sprintf("_%d",(int)ineig);
strcpy(namedist,tmp.toLatin1().constData());
err=MEDsubdomainJointCr(fid,nomfinal,namejnt,descjnt,ineig,namedist);
if (err<0) std::cerr<<"Problem MEDsubdomainJointCr"<<std::endl;
families.add(tmp,namejoint);
}
- key=key.sprintf("NB%d VC",idom); //files.NoBoite Vertex Coordinates
+ key=key.sprintf("NB%d VC",(int)idom); //files.NoBoite Vertex Coordinates
tab=this->restore_key(key); //tab1=this->mestab[key1];
nbnodes=tab->size/3;
//writing correspondence triangles-triangles
//std::cout<<"\n faces joints\n";
nbtria3neig=0;
- key1=key1.sprintf("MS%d NE%d FA SE",idom,ineig); //SE or RE identicals
+ key1=key1.sprintf("MS%d NE%d FA SE",(int)idom,(int)ineig); //SE or RE identicals
tab1=this->restore_key(key1); //tab1=this->mestab[key1];
if (!tab1){
if (verbose>4)
}
else //have to set xml may be no faces but nodes in a joint!
{
- key1=key1.sprintf("MS%d NE%d FA SE",ineig,idom); //SE or RE identicals
+ key1=key1.sprintf("MS%d NE%d FA SE",(int)ineig,(int)idom); //SE or RE identicals
tab2=this->restore_key(key1);
if (!tab2) std::cerr<<"Problem existing triangles of joint in domain "<<idom<<
" with none in neighbourg "<<ineig<<" files .msg"<<std::endl;
" number of triangles of joint "<<idom<<"<->"<<ineig<<" not equals"<<std::endl;
continue;
}
- namejoint=namejoint.sprintf("JOINT_%d_%d_Faces",idom,ineig);
+ namejoint=namejoint.sprintf("JOINT_%d_%d_Faces",(int)idom,(int)ineig);
famjoint=0;
if (namejoint.contains(deletegroups)==0){
families.add(tmp,namejoint);
}
- key=key.sprintf("FC%d",idom); //files.FaCes faces (wrap and triangles only)
+ key=key.sprintf("FC%d",(int)idom); //files.FaCes faces (wrap and triangles only)
tab=this->restore_key(key); //tab1=this->mestab[key1];
med_int nb=tab1->size; nbtria3neig=nb;
arrayfaces[jj]=inodes[tab->tmint[k+1]-1]; jj++;
arrayfaces[jj]=inodes[tab->tmint[k+2]-1]; jj++;
}
- int happens=0;
+ //int happens=0;
for (i=0; i<nbtria3neig*3 ; i++) {
if (arrayfaces[i]<=0) {
std::cerr<<"Problem file X_joints.med unknown node in joint "<<idom<<"_"<<ineig<<" face "<<i/3+1<<std::endl; //precaution
- happens=1;
+ //happens=1;
}
}
/*TODO DEBUG may be bug distene?
//!write in file resume DOMAIN.joints.med of all joints for quick display (...may be...)
if (idom<=ineig) { //no duplicate joint_1_2 and joint_2_1
//create mesh
- namejoint=namejoint.sprintf("JOINT_%d_%d",idom,ineig);
+ namejoint=namejoint.sprintf("JOINT_%d_%d",(int)idom,(int)ineig);
charendnull(namejnt,namejoint,MED_NAME_SIZE);
- tmp=tmp.sprintf("joint between %d and %d",idom,ineig);
+ tmp=tmp.sprintf("joint between %d and %d",(int)idom,(int)ineig);
charendnull(descjnt,tmp,MED_COMMENT_SIZE);
err=MEDmeshCr(fidjoint,namejnt,3,3,MED_UNSTRUCTURED_MESH,descjnt,dtunit,MED_SORT_DTIT,MED_CARTESIAN,axisname,axisunit);
if (err<0) std::cerr<<"Problem MEDmeshCr "<<namejnt<<std::endl;
//for (i=0; i<nbtria3neig ; i++) std::cout<<i+1<<" "<<
// arrayfaces[i*3]<<" "<<arrayfaces[i*3+1]<<" "<<arrayfaces[i*3+2]<<std::endl;
err=MEDmeshElementConnectivityWr(fidjoint,namejnt,MED_NO_DT,MED_NO_IT,0.,
- MED_CELL,MED_TRIA3,MED_NODAL,MED_FULL_INTERLACE,nbtria3neig,arrayfaces);
+ MED_CELL,MED_TRIA3,MED_NODAL,MED_FULL_INTERLACE,nbtria3neig,arrayfaces); // todo: arrayfaces may be used uninitialized
if (err<0) std::cerr<<"Problem MEDmeshElementConnectivityWr for triangles connectivity "<<namejnt<<std::endl;
//writing indices of faces triangles of joint
arrayi=new med_int[nbtria3neig];
}
delete[] arraynodes;
- if (nbtria3neig>0) delete[] arrayfaces;
+ if (nbtria3neig>0) delete[] arrayfaces; // todo: arrayfaces may be used uninitialized
delete[] inodes;
//!masterfile.xml
xmlNewProp(joints_node, BAD_CAST "number", BAD_CAST i2a(nbjoints).c_str());
xmlNewChild(joints_node, 0, BAD_CAST "id_neighbours", BAD_CAST sjoints.substr(1).c_str());
- tmp=tmp.sprintf("NB%d VC",idom);
+ tmp=tmp.sprintf("NB%d VC",(int)idom);
//qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
//tmp=tmp.sprintf("MS%d NE*",idom);
//qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- //xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
- tmp=tmp.sprintf("FC%d",idom);
+ ///*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ tmp=tmp.sprintf("FC%d",(int)idom);
//qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
- tmp=tmp.sprintf("GL%d *",idom);
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ tmp=tmp.sprintf("GL%d *",(int)idom);
//qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
return ok;
}
QString tmp,key1;
CVWtab *tab1;
med_int i,*arrayi;
- int xx;
+ //int xx;
//writing connectivity of tetrahedra by nodes
- key1=key1.sprintf("NB%d EV",idom); //files.NoBoite Elements Vertices (tetra only)
+ key1=key1.sprintf("NB%d EV",(int)idom); //files.NoBoite Elements Vertices (tetra only)
tab1=this->restore_key(key1); //tab1=this->mestab[key1];
nbtetra4=tab1->size/4;
this->nbtetr=nbtetra4; // for current idom
{
//writing tetrahedra global numbering
//GLx EL=files.GLo ELements
- key1=key1.sprintf("GL%d EL",idom);
+ key1=key1.sprintf("GL%d EL",(int)idom);
tab1=this->restore_key(key1); //tab1=this->mestab[key1];
if (!tab1) {
//tmp=pathini+casename+tmp.sprintf(format.toLatin1().constData(),nbfilestot,idom)+".glo";
if (err<0){std::cerr<<"Problem MEDmeshGlobalNumberWr tetrahedra"<<std::endl; return false;}
}
- tmp=tmp.sprintf("NB%d EV",idom);
+ tmp=tmp.sprintf("NB%d EV", (int)idom);
//qt3 xx=this->remove_key_mesh_wrap(QRegExp(tmp,true,true));
- xx=this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
+ /*xx=*/this->remove_key_mesh_wrap(QRegExp(tmp,Qt::CaseSensitive,QRegExp::RegExp));
return ok;
}
{
med_int pas,ires;
char nomfam[MED_NAME_SIZE+1]; //it.current()->name;
- char attdes[MED_COMMENT_SIZE+1]="_NO_DESCRIPTION";
+ //char attdes[MED_COMMENT_SIZE+1]="_NO_DESCRIPTION";
char *gro;
- med_int i,attide=1,attval=1,natt=1,num,ngro;
+ med_int i,/*attide=1,*//*attval=1,*//*natt=1,*/num,ngro;
if (sign>=0) pas=1; else pas=-1;
ires=0;
med_int ghs3dprl_mesh_wrap::create_family_zero(med_idt fid, QString nameMesh)
{
- med_int pas,ires;
+ med_int /*pas,*/ires;
ires=0;
char nomfam[MED_NAME_SIZE+1]="FAMILLE_ZERO"; //it.current()->name;
- char attdes[MED_COMMENT_SIZE+1]="_NO_DESCRIPTION";
+ //char attdes[MED_COMMENT_SIZE+1]="_NO_DESCRIPTION";
char *gro;
- med_int i,attide=1,attval=1,natt=1,num=0,ngro=0;
+ med_int /*attide=1,*//*attval=1,*//*natt=1,*/num=0,ngro=0;
gro=new char[MED_LNAME_SIZE*ngro+2];
if (verbose>3)std::cout<<"\ncreate_family_ZERO "<<nameMesh.toLatin1().constData()<<std::endl;