-/* Copyright (c) 2014-2017. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2014-2019. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
namespace simgrid{
namespace smpi{
-Topo_Graph::~Topo_Graph()
-{
- delete[] index_;
- delete[] edges_;
-}
-
-Topo_Dist_Graph::~Topo_Dist_Graph()
-{
- delete[] in_;
- delete[] in_weights_;
- delete[] out_;
- delete[] out_weights_;
-}
-
/*******************************************************************************
* Cartesian topologies
******************************************************************************/
-Topo_Cart::~Topo_Cart()
-{
- delete[] dims_;
- delete[] periodic_;
- delete[] position_;
-}
-Topo_Cart::Topo_Cart(int ndims) : ndims_(ndims)
+Topo_Cart::Topo_Cart(int ndims) : ndims_(ndims), dims_(ndims), periodic_(ndims), position_(ndims)
{
- dims_ = new int[ndims];
- periodic_ = new int[ndims];
- position_ = new int[ndims];
}
/* reorder is ignored, don't know what would be the consequences of a dumb reordering but neither do I see the point of
* reordering*/
-Topo_Cart::Topo_Cart(MPI_Comm comm_old, int ndims, int dims[], int periods[], int reorder, MPI_Comm *comm_cart) : Topo_Cart(ndims) {
+Topo_Cart::Topo_Cart(MPI_Comm comm_old, int ndims, const int dims[], const int periods[], int /*reorder*/, MPI_Comm* comm_cart)
+ : Topo_Cart(ndims)
+{
MPI_Group newGroup;
MPI_Group oldGroup;
newSize *= dims[i];
}
if(rank >= newSize) {
- *comm_cart = MPI_COMM_NULL;
+ if(comm_cart != nullptr)
+ *comm_cart = MPI_COMM_NULL;
return;
}
oldGroup = comm_old->group();
position_[i] = rank / nranks;
rank = rank % nranks;
}
-
- *comm_cart = new Comm(newGroup, this);
+ if(comm_cart != nullptr)
+ *comm_cart = new Comm(newGroup, this);
} else {
- if (rank == 0) {
- *comm_cart = new Comm(new Group(MPI_COMM_SELF->group()), this);
- } else {
- *comm_cart = MPI_COMM_NULL;
+ if(comm_cart != nullptr){
+ if (rank == 0) {
+ *comm_cart = new Comm(new Group(MPI_COMM_SELF->group()), this);
+ } else {
+ *comm_cart = MPI_COMM_NULL;
+ }
}
}
- setComm(*comm_cart);
+ if(comm_cart != nullptr)
+ setComm(*comm_cart);
}
Topo_Cart* Topo_Cart::sub(const int remain_dims[], MPI_Comm *newcomm) {
}
if (newNDims > 0) {
- newDims = xbt_new(int, newNDims);
- newPeriodic = xbt_new(int, newNDims);
+ newDims = new int[newNDims];
+ newPeriodic = new int[newNDims];
// that should not segfault
int j = 0;
}
}
}
- return new Topo_Cart(getComm(), newNDims, newDims, newPeriodic, 0, newcomm);
+
+ //split into several communicators
+ int color = 0;
+ for (int i = 0; i < oldNDims; i++) {
+ if (not remain_dims[i]) {
+ color = (color * dims_[i] + position_[i]);
+ }
+ }
+ Topo_Cart* res;
+ if (newNDims == 0){
+ res = new Topo_Cart(getComm(), newNDims, newDims, newPeriodic, 0, newcomm);
+ } else {
+ *newcomm = getComm()->split(color, getComm()->rank());
+ res = new Topo_Cart(getComm(), newNDims, newDims, newPeriodic, 0, nullptr);
+ res->setComm(*newcomm);
+ }
+ delete[] newDims;
+ delete[] newPeriodic;
+ return res;
}
-int Topo_Cart::coords(int rank, int maxdims, int coords[]) {
+int Topo_Cart::coords(int rank, int /*maxdims*/, int coords[])
+{
int nnodes = nnodes_;
for (int i = 0; i< ndims_; i++ ) {
nnodes = nnodes /dims_[i];
return MPI_SUCCESS;
}
-int Topo_Cart::rank(int* coords, int* rank) {
+int Topo_Cart::rank(const int* coords, int* rank) {
int ndims =ndims_;
*rank = 0;
int multiplier = 1;
return MPI_SUCCESS;
}
-int Topo_Cart::shift(int direction, int disp, int *rank_source, int *rank_dest) {
-
- int position[ndims_];
-
+int Topo_Cart::shift(int direction, int disp, int* rank_source, int* rank_dest)
+{
if(ndims_ == 0) {
return MPI_ERR_ARG;
}
return MPI_ERR_DIMS;
}
+ int* position = new int[ndims_];
this->coords(getComm()->rank(), ndims_, position);
position[direction] += disp;
} else {
this->rank(position, rank_source);
}
-
+ delete[] position;
return MPI_SUCCESS;
}
return MPI_SUCCESS;
}
/* Allocate the array of prime factors which cannot exceed log_2(num) entries */
- int sqrtnum = ceil(sqrt(num));
- int size = ceil(log(num) / log(2));
+ int sqrtnum = ceil(sqrt(double(num)));
+ int size = ceil(log(double(num)) / log(2.0));
*factors = new int[size];
int i = 0;