MPL: A message passing library#

Introduction#

MPL is a message passing library written in C++17 based on the Message Passing Interface (MPI) standard. Since the C++ API has been dropped from the MPI standard in version 3.1, it is the aim of MPL to provide a modern C++ message passing library for high performance computing.

MPL will neither bring all functions of the C language MPI-API to C++ nor provide a direct mapping of the C API to some C++ functions and classes. The library’s focus lies on the MPI core message passing functions, ease of use, type safety, and elegance. The aim of MPL is to provide an idiomatic C++ message passing library without introducing a significant overhead compared to utilizing MPI via its plain C-API. This library is most useful for developers who have at least some basic knowledge of the Message Passing Interface standard and would like to utilize it via a more user-friendly interface in modern C++. Unlike Boost.MPI, MPL does not rely on an external serialization library and has a negligible run-time overhead.

Supported features#

MPL assumes that the underlying MPI implementation supports the version 3.1 of the Message Passing Interface standard. Future versions of MPL may also employ features of the new version 4.0 or later MPI versions.

MPL gives currently access via a convenient C++ interface to the following features of the Message Passing Interface standard:

  • environmental management (implicit initialization and finalization, timers, but no error handling).

  • point-to-point communication (blocking and non-blocking),

  • collective communication (blocking and non-blocking),

  • derived data types (happens automatically for many custom data types or via the base_struct_builder helper class and the layout classes of MPL),

  • communicator- and group-management,

  • process topologies (cartesian and graph topologies),

  • inter-communicators,

  • dynamic process creation and

  • file i/o.

Currently, the following MPI features are not yet supported by MPL:

  • error handling and

  • one-sided communication.

Although MPL covers a subset of the MPI functionality only, it has probably the largest MPI-feature coverage among all alternative C++ interfaces to MPI.

Hello parallel world#

MPL is built on top of the Message Passing Interface (MPI) standard. Therefore, MPL shares many concepts known from the MPI standard, e.g., the concept of a communicator. Communicators manage the message exchange between different processes, i.e., messages are sent and received with the help of a communicator.

The MPL environment provides a global default communicator comm_world, which will be used in the following Hello-World program. The program prints out some information about each process:

  • its rank,

  • the total number of processes and

  • the computer’s name the process is running on.

If there are two or more processes, a message is sent from process 0 to process 1, which is also printed.

#include <cstdlib>
#include <iostream>
// include MPL header file
#include <mpl/mpl.hpp>

int main() {
  // get a reference to communicator "world"
  const mpl::communicator &comm_world{mpl::environment::comm_world()};
  // each process prints a message containing the processor name, the rank
  // in communicator world and the size of communicator world
  // output may depend on MPI implementation
  std::cout << "Hello world! I am running on \"" << mpl::environment::processor_name()
            << "\". My rank is " << comm_world.rank() << " out of " << comm_world.size()
            << " processes.\n";
  // if there are two or more processes send a message from process 0 to process 1
  if (comm_world.size() >= 2) {
    if (comm_world.rank() == 0) {
      std::string message{"Hello world!"};
      comm_world.send(message, 1);  // send message to rank 1
    } else if (comm_world.rank() == 1) {
      std::string message;
      comm_world.recv(message, 0);  // receive message from rank 0
      std::cout << "got: \"" << message << "\"\n";
    }
  }
  return EXIT_SUCCESS;
}

Further documentation#

For further documentation see the blog posts

the presentation

the book

and the files in the examples directory of the source package.

Indices and tables#