netgen/libsrc/core/mpi_wrapper.hpp

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#ifndef NGCORE_MPIWRAPPER_HPP
#define NGCORE_MPIWRAPPER_HPP
#ifdef PARALLEL
#define OMPI_SKIP_MPICXX
#include <mpi.h>
#endif
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#include "array.hpp"
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#include "exception.hpp"
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#include "profiler.hpp"
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namespace ngcore
{
#ifdef PARALLEL
template <class T> struct MPI_typetrait { };
template <> struct MPI_typetrait<int> {
static MPI_Datatype MPIType () { return MPI_INT; } };
template <> struct MPI_typetrait<short> {
static MPI_Datatype MPIType () { return MPI_SHORT; } };
template <> struct MPI_typetrait<char> {
static MPI_Datatype MPIType () { return MPI_CHAR; } };
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template <> struct MPI_typetrait<signed char> {
static MPI_Datatype MPIType () { return MPI_CHAR; } };
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template <> struct MPI_typetrait<unsigned char> {
static MPI_Datatype MPIType () { return MPI_CHAR; } };
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template <> struct MPI_typetrait<size_t> {
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static MPI_Datatype MPIType () { return MPI_UINT64_T; } };
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template <> struct MPI_typetrait<double> {
static MPI_Datatype MPIType () { return MPI_DOUBLE; } };
template <> struct MPI_typetrait<bool> {
static MPI_Datatype MPIType () { return MPI_C_BOOL; } };
template <class T, class T2 = decltype(MPI_typetrait<T>::MPIType())>
inline MPI_Datatype GetMPIType () {
return MPI_typetrait<T>::MPIType();
}
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template <class T>
inline MPI_Datatype GetMPIType (T &) {
return GetMPIType<T>();
}
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class NgMPI_Comm
{
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protected:
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MPI_Comm comm;
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bool valid_comm;
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int * refcount;
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int rank, size;
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public:
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NgMPI_Comm ()
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: valid_comm(false), refcount(nullptr), rank(0), size(1)
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{ ; }
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NgMPI_Comm (MPI_Comm _comm, bool owns = false)
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: comm(_comm), valid_comm(true)
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{
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int flag;
MPI_Initialized (&flag);
if (!flag)
{
valid_comm = false;
refcount = nullptr;
rank = 0;
size = 1;
return;
}
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if (!owns)
refcount = nullptr;
else
refcount = new int{1};
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MPI_Comm_rank(comm, &rank);
MPI_Comm_size(comm, &size);
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}
NgMPI_Comm (const NgMPI_Comm & c)
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: comm(c.comm), valid_comm(c.valid_comm), refcount(c.refcount),
rank(c.rank), size(c.size)
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{
if (refcount) (*refcount)++;
}
NgMPI_Comm (NgMPI_Comm && c)
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: comm(c.comm), valid_comm(c.valid_comm), refcount(c.refcount),
rank(c.rank), size(c.size)
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{
c.refcount = nullptr;
}
~NgMPI_Comm()
{
if (refcount)
if (--(*refcount) == 0)
MPI_Comm_free(&comm);
}
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bool ValidCommunicator() const
{
return valid_comm;
}
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NgMPI_Comm & operator= (const NgMPI_Comm & c)
{
if (refcount)
if (--(*refcount) == 0)
MPI_Comm_free(&comm);
refcount = c.refcount;
if (refcount) (*refcount)++;
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comm = c.comm;
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valid_comm = c.valid_comm;
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size = c.size;
rank = c.rank;
return *this;
}
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class InvalidCommException : public Exception {
public:
InvalidCommException() : Exception("Do not have a valid communicator") { ; }
};
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operator MPI_Comm() const {
if (!valid_comm) throw InvalidCommException();
return comm;
}
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int Rank() const { return rank; }
int Size() const { return size; }
void Barrier() const {
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static Timer t("MPI - Barrier"); RegionTimer reg(t);
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if (size > 1) MPI_Barrier (comm);
}
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/** --- blocking P2P --- **/
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template<typename T, typename T2 = decltype(GetMPIType<T>())>
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void Send (T & val, int dest, int tag) const {
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MPI_Send (&val, 1, GetMPIType<T>(), dest, tag, comm);
}
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void Send (const std::string & s, int dest, int tag) const {
MPI_Send( const_cast<char*> (&s[0]), s.length(), MPI_CHAR, dest, tag, comm);
}
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template<typename T, typename TI, typename T2 = decltype(GetMPIType<T>())>
void Send(FlatArray<T,TI> s, int dest, int tag) const {
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MPI_Send (s.Data(), s.Size(), GetMPIType<T>(), dest, tag, comm);
}
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template<typename T, typename T2 = decltype(GetMPIType<T>())>
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void Recv (T & val, int src, int tag) const {
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MPI_Recv (&val, 1, GetMPIType<T>(), src, tag, comm, MPI_STATUS_IGNORE);
}
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void Recv (std::string & s, int src, int tag) const {
MPI_Status status;
int len;
MPI_Probe (src, tag, comm, &status);
MPI_Get_count (&status, MPI_CHAR, &len);
// s.assign (len, ' ');
s.resize (len);
MPI_Recv( &s[0], len, MPI_CHAR, src, tag, comm, MPI_STATUS_IGNORE);
}
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template <typename T, typename TI, typename T2 = decltype(GetMPIType<T>())>
void Recv (FlatArray <T,TI> s, int src, int tag) const {
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MPI_Recv (s.Data(), s.Size(), GetMPIType<T> (), src, tag, comm, MPI_STATUS_IGNORE);
}
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template <typename T, typename TI, typename T2 = decltype(GetMPIType<T>())>
void Recv (Array <T,TI> & s, int src, int tag) const
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{
MPI_Status status;
int len;
const MPI_Datatype MPI_T = GetMPIType<T> ();
MPI_Probe (src, tag, comm, &status);
MPI_Get_count (&status, MPI_T, &len);
s.SetSize (len);
MPI_Recv (s.Data(), len, MPI_T, src, tag, comm, MPI_STATUS_IGNORE);
}
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/** --- non-blocking P2P --- **/
template<typename T, typename T2 = decltype(GetMPIType<T>())>
MPI_Request ISend (T & val, int dest, int tag) const
{
MPI_Request request;
MPI_Isend (&val, 1, GetMPIType<T>(), dest, tag, comm, &request);
return request;
}
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template<typename T, typename T2 = decltype(GetMPIType<T>())>
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MPI_Request ISend (FlatArray<T> s, int dest, int tag) const
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{
MPI_Request request;
MPI_Isend (s.Data(), s.Size(), GetMPIType<T>(), dest, tag, comm, &request);
return request;
}
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template<typename T, typename T2 = decltype(GetMPIType<T>())>
MPI_Request IRecv (T & val, int dest, int tag) const
{
MPI_Request request;
MPI_Irecv (&val, 1, GetMPIType<T>(), dest, tag, comm, &request);
return request;
}
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template<typename T, typename T2 = decltype(GetMPIType<T>())>
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MPI_Request IRecv (FlatArray<T> s, int src, int tag) const
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{
MPI_Request request;
MPI_Irecv (s.Data(), s.Size(), GetMPIType<T>(), src, tag, comm, &request);
return request;
}
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/** --- collectives --- **/
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template <typename T, typename T2 = decltype(GetMPIType<T>())>
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T Reduce (T d, const MPI_Op & op, int root = 0) const
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{
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static Timer t("MPI - Reduce"); RegionTimer reg(t);
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if (size == 1) return d;
T global_d;
MPI_Reduce (&d, &global_d, 1, GetMPIType<T>(), op, root, comm);
return global_d;
}
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template <typename T, typename T2 = decltype(GetMPIType<T>())>
T AllReduce (T d, const MPI_Op & op) const
{
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static Timer t("MPI - AllReduce"); RegionTimer reg(t);
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if (size == 1) return d;
T global_d;
MPI_Allreduce ( &d, &global_d, 1, GetMPIType<T>(), op, comm);
return global_d;
}
template <typename T, typename T2 = decltype(GetMPIType<T>())>
void Bcast (T & s, int root = 0) const {
if (size == 1) return ;
MPI_Bcast (&s, 1, GetMPIType<T>(), root, comm);
}
void Bcast (std::string & s, int root = 0) const
{
if (size == 1) return;
int len = s.length();
Bcast (len, root);
if (rank != 0) s.resize (len);
MPI_Bcast (&s[0], len, MPI_CHAR, root, comm);
}
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template <typename T>
void AllToAll (FlatArray<T> send, FlatArray<T> recv) const
{
MPI_Alltoall (send.Data(), 1, GetMPIType<T>(),
recv.Data(), 1, GetMPIType<T>(), comm);
}
template <typename T>
void ScatterRoot (FlatArray<T> send) const
{
if (size == 1) return;
MPI_Scatter (send.Data(), 1, GetMPIType<T>(),
MPI_IN_PLACE, -1, GetMPIType<T>(), 0, comm);
}
template <typename T>
void Scatter (T & recv) const
{
if (size == 1) return;
MPI_Scatter (NULL, 0, GetMPIType<T>(),
&recv, 1, GetMPIType<T>(), 0, comm);
}
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template <typename T>
void AllGather (T val, FlatArray<T> recv) const
{
if (size == 1)
{
recv[0] = val;
return;
}
MPI_Allgather (&val, 1, GetMPIType<T>(),
recv.Data(), 1, GetMPIType<T>(),
comm);
}
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NgMPI_Comm SubCommunicator (FlatArray<int> procs) const
{
MPI_Comm subcomm;
MPI_Group gcomm, gsubcomm;
MPI_Comm_group(comm, &gcomm);
MPI_Group_incl(gcomm, procs.Size(), procs.Data(), &gsubcomm);
MPI_Comm_create_group(comm, gsubcomm, 4242, &subcomm);
return NgMPI_Comm(subcomm, true);
}
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}; // class NgMPI_Comm
NETGEN_INLINE void MyMPI_WaitAll (FlatArray<MPI_Request> requests)
{
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static Timer t("MPI - WaitAll"); RegionTimer reg(t);
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if (!requests.Size()) return;
MPI_Waitall (requests.Size(), requests.Data(), MPI_STATUSES_IGNORE);
}
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NETGEN_INLINE int MyMPI_WaitAny (FlatArray<MPI_Request> requests)
{
int nr;
MPI_Waitany (requests.Size(), requests.Data(), &nr, MPI_STATUS_IGNORE);
return nr;
}
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#else // PARALLEL
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class MPI_Comm {
int nr;
public:
MPI_Comm (int _nr = 0) : nr(_nr) { ; }
operator int() const { return nr; }
bool operator== (MPI_Comm c2) const { return nr == c2.nr; }
};
static MPI_Comm MPI_COMM_WORLD = 12345, MPI_COMM_NULL = 10000;
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typedef int MPI_Op;
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typedef int MPI_Datatype;
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typedef int MPI_Request;
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enum { MPI_SUM = 0, MPI_MIN = 1, MPI_MAX = 2, MPI_LOR = 4711 };
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class NgMPI_Comm
{
public:
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NgMPI_Comm () { ; }
NgMPI_Comm (MPI_Comm _comm, bool owns = false) { ; }
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size_t Rank() const { return 0; }
size_t Size() const { return 1; }
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bool ValidCommunicator() const { return false; }
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void Barrier() const { ; }
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operator MPI_Comm() const { return MPI_Comm(); }
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template<typename T>
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void Send( T & val, int dest, int tag) const { ; }
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template<typename T>
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void Send(FlatArray<T> s, int dest, int tag) const { ; }
template<typename T>
void Recv (T & val, int src, int tag) const { ; }
template <typename T>
void Recv (FlatArray <T> s, int src, int tag) const { ; }
template <typename T>
void Recv (Array <T> & s, int src, int tag) const { ; }
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template<typename T>
MPI_Request ISend (T & val, int dest, int tag) const { return 0; }
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template<typename T>
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MPI_Request ISend (FlatArray<T> s, int dest, int tag) const { return 0; }
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template<typename T>
MPI_Request IRecv (T & val, int dest, int tag) const { return 0; }
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template<typename T>
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MPI_Request IRecv (FlatArray<T> s, int src, int tag) const { return 0; }
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template <typename T>
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T Reduce (T d, const MPI_Op & op, int root = 0) const { return d; }
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template <typename T>
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T AllReduce (T d, const MPI_Op & op) const { return d; }
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template <typename T>
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void Bcast (T & s, int root = 0) const { ; }
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NgMPI_Comm SubCommunicator (FlatArray<int> procs) const
{ return *this; }
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};
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NETGEN_INLINE void MyMPI_WaitAll (FlatArray<MPI_Request> requests) { ; }
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#endif // PARALLEL
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} // namespace ngcore
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#endif // NGCORE_MPIWRAPPER_HPP
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