Commit f5f87c3c authored by Martin Khannouz's avatar Martin Khannouz Committed by Berenger Bramas

Fix compilation issue due to the merge. (still not working)

parent 9f7eafc9
......@@ -907,7 +907,7 @@ protected:
MortonIndex interactionsIndexes[26];
int interactionsPosition[26];
FTreeCoordinate coord(mindex, tree->getHeight()-1);
FTreeCoordinate coord(mindex);
int counter = coord.getNeighborsIndexes(tree->getHeight(),interactionsIndexes,interactionsPosition);
for(int idxInter = 0 ; idxInter < counter ; ++idxInter){
......@@ -995,7 +995,7 @@ protected:
MortonIndex interactionsIndexes[189];
int interactionsPosition[189];
const FTreeCoordinate coord(mindex, idxLevel);
const FTreeCoordinate coord(mindex);
int counter = coord.getInteractionNeighbors(idxLevel,interactionsIndexes,interactionsPosition);
for(int idxInter = 0 ; idxInter < counter ; ++idxInter){
......
......@@ -1679,19 +1679,14 @@ protected:
/////////////////////////////////////////////////////////////////////////////////////
/// Mpi Function overload
/////////////////////////////////////////////////////////////////////////////////////
#define LIMIT_SIZE_MPI 1000000//1Mo
void mpiPostISend(starpu_data_handle_t handle, const int dest, const int level, const MortonIndex startingIndex, const int idxBlock, const int mode)
{
size_t size = starpu_data_get_size(handle);
const size_t limitSize = LIMIT_SIZE_MPI;
starpu_mpi_isend_detached(handle, dest,
getTag(level,startingIndex,idxBlock, mode, dest),
comm.getComm(), 0/*callback*/, 0/*arg*/ );
}
void mpiPostIRecv(starpu_data_handle_t handle, const int dest, const int level, const MortonIndex startingIndex, const int idxBlock, const int mode)
{
size_t size = starpu_data_get_size(handle);
const size_t limitSize = LIMIT_SIZE_MPI;
starpu_mpi_irecv_detached(handle, dest,
getTag(level,startingIndex,idxBlock, mode, dest),
comm.getComm(), 0/*callback*/, 0/*arg*/ );
......
......@@ -103,14 +103,14 @@ int main(int argc, char* argv[]){
setSeed(1);
FReal * tmpParticles = new FReal[4*loader.getNumberOfParticles()];
if(FParameters::existParameter(argc, argv, "-ellipsoid")) {
nonunifRandonPointsOnElipsoid(loader.getNumberOfParticles(), loader.getBoxWidth()/2, loader.getBoxWidth()/4, loader.getBoxWidth()/8, tmpParticles);
nonunifRandomPointsOnElipsoid(loader.getNumberOfParticles(), loader.getBoxWidth()/2, loader.getBoxWidth()/4, loader.getBoxWidth()/8, tmpParticles);
}
else if(FParameters::existParameter(argc, argv, "-plummer")) {
//The M argument is not used in the algorithm of the plummer distribution
unifRandonPlummer(loader.getNumberOfParticles(), loader.getBoxWidth()/2, 0.0, tmpParticles) ;
unifRandomPlummer(loader.getNumberOfParticles(), loader.getBoxWidth()/2, tmpParticles) ;
}
else { //Uniform cube
unifRandonPointsOnCube(loader.getNumberOfParticles(), loader.getBoxWidth()/2, loader.getBoxWidth()/2, loader.getBoxWidth()/2, tmpParticles);
unifRandomPointsInCube(loader.getNumberOfParticles(), loader.getBoxWidth()/2, loader.getBoxWidth()/2, loader.getBoxWidth()/2, tmpParticles);
}
#endif
......
......@@ -120,14 +120,14 @@ int main(int argc, char* argv[]){
setSeed(i+1);//Add +1 so the seed given is never 0 which correspond to random
FReal * tmpParticles = new FReal[4*NbParticlesPerNode];
if(FParameters::existParameter(argc, argv, "-ellipsoid")) {
nonunifRandonPointsOnElipsoid(NbParticlesPerNode, boxWidth/2, boxWidth/4, boxWidth/8, tmpParticles);
nonunifRandomPointsOnElipsoid(NbParticlesPerNode, boxWidth/2, boxWidth/4, boxWidth/8, tmpParticles);
}
else if(FParameters::existParameter(argc, argv, "-plummer")) {
//The M argument is not used in the algorithm of the plummer distribution
unifRandonPlummer(NbParticlesPerNode, boxWidth/2, 0.0, tmpParticles) ;
unifRandomPlummer(NbParticlesPerNode, boxWidth/2, tmpParticles) ;
}
else { //Uniform cube
unifRandonPointsOnCube(NbParticlesPerNode, boxWidth/2, boxWidth/2, boxWidth/2, tmpParticles);
unifRandomPointsInCube(NbParticlesPerNode, boxWidth/2, boxWidth/2, boxWidth/2, tmpParticles);
}
for(FSize j= 0 ; j < NbParticlesPerNode ; ++j){
allParticlesToSort[idxPart].setPosition(tmpParticles[j*4], tmpParticles[j*4+1], tmpParticles[j*4+2]);//Same with file or not
......
......@@ -123,14 +123,13 @@ int main(int argc, char* argv[]){
memset(allParticles,0,(unsigned int) (sizeof(TestParticle)* loader.getNumberOfParticles()));
memset(tmpParticles,0,(unsigned int) (sizeof(FReal)* loader.getNumberOfParticles() * 4));
if(FParameters::existParameter(argc, argv, "-ellipsoid")) {
nonunifRandonPointsOnElipsoid(loader.getNumberOfParticles(), boxWidth/2, boxWidth/4, boxWidth/8, tmpParticles);
nonunifRandomPointsOnElipsoid(loader.getNumberOfParticles(), boxWidth/2, boxWidth/4, boxWidth/8, tmpParticles);
}
else if(FParameters::existParameter(argc, argv, "-plummer")) {
//The M argument is not used in the algorithm of the plummer distribution
unifRandonPlummer(loader.getNumberOfParticles(), boxWidth/2, 0.0, tmpParticles) ;
unifRandomPlummer(loader.getNumberOfParticles(), boxWidth/2, tmpParticles) ;
}
else { //Uniform cube
unifRandonPointsOnCube(loader.getNumberOfParticles(), boxWidth/2, boxWidth/2, boxWidth/2, tmpParticles);
unifRandomPointsInCube(loader.getNumberOfParticles(), boxWidth/2, boxWidth/2, boxWidth/2, tmpParticles);
}
for(FSize idxPart = 0 ; idxPart < loader.getNumberOfParticles() ; ++idxPart){
......
......@@ -99,14 +99,14 @@ int main(int argc, char* argv[]){
memset(allParticles,0,(unsigned int) (sizeof(TestParticle)* loader.getNumberOfParticles()));
memset(tmpParticles,0,(unsigned int) (sizeof(FReal)* loader.getNumberOfParticles() * 4));
if(FParameters::existParameter(argc, argv, "-ellipsoid")) {
nonunifRandonPointsOnElipsoid(loader.getNumberOfParticles(), boxWidth/2, boxWidth/4, boxWidth/8, tmpParticles);
nonunifRandomPointsOnElipsoid(loader.getNumberOfParticles(), boxWidth/2, boxWidth/4, boxWidth/8, tmpParticles);
}
else if(FParameters::existParameter(argc, argv, "-plummer")) {
//The M argument is not used in the algorithm of the plummer distribution
unifRandonPlummer(loader.getNumberOfParticles(), boxWidth/2, 0.0, tmpParticles) ;
unifRandomPlummer(loader.getNumberOfParticles(), boxWidth/2, tmpParticles) ;
}
else { //Uniform cube
unifRandonPointsOnCube(loader.getNumberOfParticles(), boxWidth/2, boxWidth/2, boxWidth/2, tmpParticles);
unifRandomPointsInCube(loader.getNumberOfParticles(), boxWidth/2, boxWidth/2, boxWidth/2, tmpParticles);
}
for(FSize idxPart = 0 ; idxPart < loader.getNumberOfParticles() ; ++idxPart){
......@@ -142,7 +142,7 @@ int main(int argc, char* argv[]){
loader.getBoxWidth(),
TreeHeight,
myParticles[myParticles.getSize()-1].position );
const MortonIndex myLeftLimite = host.getMortonIndex(TreeHeight-1);
const MortonIndex myLeftLimite = host.getMortonIndex();
MortonIndex leftLimite = -1;
if(mpiComm.global().processId() != 0){
FMpi::Assert(MPI_Recv(&leftLimite, sizeof(leftLimite), MPI_BYTE,
......
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