From: Timo Heister Date: Mon, 11 Apr 2022 15:13:26 +0000 (-0400) Subject: Create Utilities::MPI::LargeCount namespace X-Git-Tag: v9.4.0-rc1~172^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=f379fa80e1fb17aea83dbfa8f843784ca2dc8d8b;p=dealii.git Create Utilities::MPI::LargeCount namespace Include the standalone helper library BigMPICompat available at https://github.com/tjhei/BigMPICompat and include it. --- diff --git a/include/deal.II/base/mpi_large_count.h b/include/deal.II/base/mpi_large_count.h new file mode 100644 index 0000000000..8577f366f0 --- /dev/null +++ b/include/deal.II/base/mpi_large_count.h @@ -0,0 +1,452 @@ +// --------------------------------------------------------------------- +// +// Copyright (C) 2022 - 2022 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, redistribute +// it, and/or modify it under the terms of the GNU Lesser General +// Public License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE.md at +// the top level directory of deal.II. +// +// --------------------------------------------------------------------- + +// +// The content of this file is a slightly modified version of the +// header-only library BigMPICompat - a tiny MPI 4.x compatibility +// library released under MIT license at +// https://github.com/tjhei/BigMPICompat and relicensed and included +// here with permission. +// + +#ifndef BIG_MPI_COMPAT_H +#define BIG_MPI_COMPAT_H + +#include + +#ifdef DEAL_II_WITH_MPI +# include +// required for std::numeric_limits used below. +# include +# ifndef MPI_VERSION +# error "Your MPI implementation does not define MPI_VERSION!" +# endif + +# if MPI_VERSION < 3 +# error "BigMPICompat requires at least MPI 3.0" +# endif + +DEAL_II_NAMESPACE_OPEN + +namespace Utilities +{ + namespace MPI + { + /** + * This namespace contains symbols to support MPI routines with + * large "counts" on MPI implementations that implement version + * 3.x of the standard, where @p count is a signed integer. + */ + namespace LargeCount + { + /** + * This is the largest @p count supported when it is represented + * with a signed integer (old MPI routines). + */ + static constexpr MPI_Count mpi_max_int_count = + std::numeric_limits::max(); + + /** + * Create a contiguous type of (possibly large) @p count. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_Type_contiguous_c(MPI_Count count, + MPI_Datatype oldtype, + MPI_Datatype *newtype) + { +# if MPI_VERSION >= 4 + return ::MPI_Type_contiguous_c(count, oldtype, newtype); +# else + if (count <= LargeCount::mpi_max_int_count) + return MPI_Type_contiguous(count, oldtype, newtype); + else + { + int ierr; + const MPI_Count max_signed_int = LargeCount::mpi_max_int_count; + + MPI_Count size_old; + ierr = MPI_Type_size_x(oldtype, &size_old); + + MPI_Count n_chunks = count / max_signed_int; + MPI_Count n_remaining_elements = count % max_signed_int; + + MPI_Datatype chunks; + ierr = MPI_Type_vector( + n_chunks, max_signed_int, max_signed_int, oldtype, &chunks); + if (ierr != MPI_SUCCESS) + return ierr; + + MPI_Datatype remainder; + ierr = + MPI_Type_contiguous(n_remaining_elements, oldtype, &remainder); + if (ierr != MPI_SUCCESS) + return ierr; + + int blocklengths[2] = {1, 1}; + MPI_Aint displacements[2] = {0, + static_cast(n_chunks) * + size_old * max_signed_int}; + MPI_Datatype types[2] = {chunks, remainder}; + ierr = MPI_Type_create_struct( + 2, blocklengths, displacements, types, newtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_commit(newtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&chunks); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&remainder); + if (ierr != MPI_SUCCESS) + return ierr; + +# ifndef MPI_COMPAT_SKIP_SIZE_CHECK + MPI_Count size_new; + ierr = MPI_Type_size_x(*newtype, &size_new); + if (ierr != MPI_SUCCESS) + return ierr; + + if (size_old * count != size_new) + { + // This error can happen when you are using a very old and + // buggy MPI implementation. There is nothing we can do + // here, unfortunately. Please update your installation. + // std::cerr + //<< "MPI_Type_contiguous_c() produced an invalid result. + // Expected = + //" + //<< size_old << " * " << count << " = " << size_old * count + //<< " but received " << size_new << std::endl; + return MPI_ERR_INTERN; + } +# endif + + return MPI_SUCCESS; + } +# endif + } + + + /** + * Send a package to rank @p dest with a (possibly large) @p count. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_Send_c(const void * buf, + MPI_Count count, + MPI_Datatype datatype, + int dest, + int tag, + MPI_Comm comm) + { +# if MPI_VERSION >= 4 + return ::MPI_Send_c(buf, count, datatype, dest, tag, comm); +# else + if (count <= LargeCount::mpi_max_int_count) + return MPI_Send(buf, count, datatype, dest, tag, comm); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Send(buf, 1, bigtype, dest, tag, comm); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; +# endif + } + + /** + * Receive a package from rank @p source with a (possibly large) @p count. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_Recv_c(void * buf, + MPI_Count count, + MPI_Datatype datatype, + int source, + int tag, + MPI_Comm comm, + MPI_Status * status) + { +# if MPI_VERSION >= 4 + return ::MPI_Recv_c(buf, count, datatype, source, tag, comm, status); +# else + if (count <= LargeCount::mpi_max_int_count) + return MPI_Recv(buf, count, datatype, source, tag, comm, status); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Recv(buf, 1, bigtype, source, tag, comm, status); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; +# endif + } + + /** + * Broadcast a message of possibly large @p count of data from + * the process with rank "root" to all other processes. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_Bcast_c(void * buf, + MPI_Count count, + MPI_Datatype datatype, + unsigned int root_mpi_rank, + MPI_Comm comm) + { +# if MPI_VERSION >= 4 + return ::MPI_Bcast_c(buf, count, datatype, root_mpi_rank, comm); +# else + if (count <= LargeCount::mpi_max_int_count) + return MPI_Bcast(buf, count, datatype, root_mpi_rank, comm); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Bcast(buf, 1, bigtype, root_mpi_rank, comm); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; +# endif + } + + /** + * Write a possibly large @p count of data at the location @p offset. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_File_write_at_c(MPI_File fh, + MPI_Offset offset, + const void * buf, + MPI_Count count, + MPI_Datatype datatype, + MPI_Status * status) + { + if (count <= LargeCount::mpi_max_int_count) + return MPI_File_write_at(fh, offset, buf, count, datatype, status); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_File_write_at(fh, offset, buf, 1, bigtype, status); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; + } + + /** + * Collectively write a possibly large @p count of data at the + * location @p offset. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_File_write_at_all_c(MPI_File fh, + MPI_Offset offset, + const void * buf, + MPI_Count count, + MPI_Datatype datatype, + MPI_Status * status) + { + if (count <= LargeCount::mpi_max_int_count) + return MPI_File_write_at_all( + fh, offset, buf, count, datatype, status); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_File_write_at_all(fh, offset, buf, 1, bigtype, status); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; + } + + /** + * Collectively write a possibly large @p count of data in order. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_File_write_ordered_c(MPI_File fh, + const void * buf, + MPI_Count count, + MPI_Datatype datatype, + MPI_Status * status) + { + if (count <= LargeCount::mpi_max_int_count) + return MPI_File_write_ordered(fh, buf, count, datatype, status); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_File_write_ordered(fh, buf, 1, bigtype, status); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; + } + + /** + * Read a possibly large @p count of data at the + * location @p offset. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_File_read_at_c(MPI_File fh, + MPI_Offset offset, + void * buf, + MPI_Count count, + MPI_Datatype datatype, + MPI_Status * status) + { + if (count <= LargeCount::mpi_max_int_count) + return MPI_File_read_at(fh, offset, buf, count, datatype, status); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_File_read_at(fh, offset, buf, 1, bigtype, status); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; + } + + /** + * Collectively read a possibly large @p count of data at the + * location @p offset. + * + * See the MPI 4.x standard for details. + */ + inline int + MPI_File_read_at_all_c(MPI_File fh, + MPI_Offset offset, + void * buf, + MPI_Count count, + MPI_Datatype datatype, + MPI_Status * status) + { + if (count <= LargeCount::mpi_max_int_count) + return MPI_File_read_at_all(fh, offset, buf, count, datatype, status); + + MPI_Datatype bigtype; + int ierr; + ierr = MPI_Type_contiguous_c(count, datatype, &bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + ierr = MPI_Type_commit(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_File_read_at_all(fh, offset, buf, 1, bigtype, status); + if (ierr != MPI_SUCCESS) + return ierr; + + ierr = MPI_Type_free(&bigtype); + if (ierr != MPI_SUCCESS) + return ierr; + return MPI_SUCCESS; + } + + } // namespace LargeCount + } // namespace MPI +} // namespace Utilities + +DEAL_II_NAMESPACE_CLOSE + +#endif +#endif diff --git a/source/base/mpi.cc b/source/base/mpi.cc index 67be2af9b6..b20b661c89 100644 --- a/source/base/mpi.cc +++ b/source/base/mpi.cc @@ -20,6 +20,7 @@ #include #include #include +#include #include #include #include @@ -254,60 +255,12 @@ namespace Utilities std::unique_ptr create_mpi_data_type_n_bytes(const std::size_t n_bytes) { - // Simplified version from BigMPI repository, see - // https://github.com/jeffhammond/BigMPI/blob/5300b18cc8ec1b2431bf269ee494054ee7bd9f72/src/type_contiguous_x.c#L74 - // (code is MIT licensed) - - // We create an MPI datatype that has the layout A*n+B where A is - // max_signed_int bytes repeated n times and B is the remainder. - - const MPI_Count max_signed_int = std::numeric_limits::max(); - - const MPI_Count n_chunks = n_bytes / max_signed_int; - const MPI_Count n_bytes_remainder = n_bytes % max_signed_int; - - Assert(static_cast(max_signed_int * n_chunks + - n_bytes_remainder) == n_bytes, - ExcInternalError()); - - MPI_Datatype chunks; - - int ierr = MPI_Type_vector( - n_chunks, max_signed_int, max_signed_int, MPI_BYTE, &chunks); - AssertThrowMPI(ierr); - - MPI_Datatype remainder; - ierr = MPI_Type_contiguous(n_bytes_remainder, MPI_BYTE, &remainder); - AssertThrowMPI(ierr); - - const int blocklengths[2] = {1, 1}; - const MPI_Aint displacements[2] = {0, - static_cast(n_chunks) * - max_signed_int}; - - // This fails if Aint happens to be 32 bits (maybe on some 32bit - // systems as it has type "long" which is usually 64bits) or the - // message is very, very big. - AssertThrow( - displacements[1] == n_chunks * max_signed_int, - ExcMessage( - "Error in create_mpi_data_type_n_bytes(): the size is too big to support.")); - MPI_Datatype result; - - const MPI_Datatype types[2] = {chunks, remainder}; - ierr = - MPI_Type_create_struct(2, blocklengths, displacements, types, &result); + int ierr = LargeCount::MPI_Type_contiguous_c(n_bytes, MPI_BYTE, &result); AssertThrowMPI(ierr); - ierr = MPI_Type_commit(&result); AssertThrowMPI(ierr); - ierr = MPI_Type_free(&chunks); - AssertThrowMPI(ierr); - ierr = MPI_Type_free(&remainder); - AssertThrowMPI(ierr); - # ifdef DEBUG MPI_Count size64; ierr = MPI_Type_size_x(result, &size64);