All MPI communication calls address entities called ranks. Currently all MPI implementations follow the interpretation that rank equals OS process, i.e. entities that in no way share memory space. That you can in principle address individual threads by crafting message tags is a work-around (or rather a hack) - e.g. try to implement the analogue of
MPI_ANY_TAG for multiple threads without infinite loops and/or central process-wide dispatch mechanism.
There was a proposal in the early stages of MPI-3.0 to include the so-called endpoints, which is basically a mechanism that allows to distribute a set of ranks to a set of threads inside a process. The proposal didn't make it through the voting mechanism and the text has to be further refined.
That said, the following is a plausible way to achieve what you want without reimplementing the collective call with pt2pt operations:
#pragma omp parallel shared(gbuf) private(buf,tid)
tid = omp_get_thread_num();
// Gather threads' data into the shared buffer 'gbuf'
// Data should start at gbuf[rank * num_threads * data_per_thread]
memcpy(gbuf + (rank*num_threads + tid)*data_per_thread,
// Make sure all threads have finished copying their chunks
// then gather the data from all the other ranks
#pragma omp barrier
#pragma omp single
MPI_Allgather(MPI_IN_PLACE, 0, MPI_TYPE_NULL,
gbuf, num_threads*data_per_thread, data_type, comm);
It works by first gathering the data from each thread's local buffer
buf into the global receive buffer
gbuf. In this example a simple
memcpy is used but it may be more involving if a complex derived datatype is being used. Once the local data is properly gathered, an in-place
MPI_Allgather is used to collect the pieces from the other processes. The
single construct ensures that only one thread per process would make the gather-to-all call.
If the number of threads is not the same in all processes,
MPI_Allgatherv should be used instead.