1: /*
  2:     We define the memory operations here. The reason we just do not use
  3:   the standard memory routines in the PETSc code is that on some machines
  4:   they are broken.

  6: */
  7: #include <petsc/private/petscimpl.h>
  8: #include <petscviewer.h>
  9: #include <../src/sys/utils/ftn-kernels/fcopy.h>

 11: /*@
 12:   PetscMemcmp - Compares two byte streams in memory.

 14:   Not Collective

 16:   Input Parameters:
 17: + str1 - Pointer to the first byte stream
 18: . str2 - Pointer to the second byte stream
 19: - len  - The length of the byte stream
 20:          (both str1 and str2 are assumed to be of length len)

 22:   Output Parameter:
 23: . e - `PETSC_TRUE` if equal else `PETSC_FALSE`.

 25:   Level: intermediate

 27:   Notes:
 28:   `PetscArraycmp()` is preferred

 30:   This routine is analogous to `memcmp()` with additional error checking

 32: .seealso: `PetscMemcpy()`, `PetscArrayzero()`, `PetscMemzero()`, `PetscArraycmp()`, `PetscArraycpy()`, `PetscStrallocpy()`,
 33:           `PetscArraymove()`
 34: @*/
 35: PetscErrorCode PetscMemcmp(const void *str1, const void *str2, size_t len, PetscBool *e)
 36: {
 37:   if (!len) {
 38:     // if e is a bad ptr I guess we just die here then?
 39:     *e = PETSC_TRUE;
 40:     return PETSC_SUCCESS;
 41:   }

 43:   PetscFunctionBegin;
 44:   PetscAssertPointer(str1, 1);
 45:   PetscAssertPointer(str2, 2);
 46:   PetscAssertPointer(e, 4);
 47:   *e = memcmp((char *)str1, (char *)str2, len) ? PETSC_FALSE : PETSC_TRUE;
 48:   PetscFunctionReturn(PETSC_SUCCESS);
 49: }

 51: #if defined(PETSC_HAVE_HWLOC)
 52: #include <petsc/private/petscimpl.h>
 53:   #include <hwloc.h>

 55: /*@C
 56:   PetscProcessPlacementView - display the MPI rank placement by core

 58:   Input Parameter:
 59: . viewer - `PETSCVIEWERASCII` to display the results on

 61:   Level: intermediate

 63:   Note:
 64:   Requires that PETSc be installed with hwloc, for example using `--download-hwloc`
 65: @*/
 66: PetscErrorCode PetscProcessPlacementView(PetscViewer viewer)
 67: {
 68:   PetscBool        isascii;
 69:   PetscMPIInt      rank;
 70:   hwloc_bitmap_t   set;
 71:   hwloc_topology_t topology;

 73:   PetscFunctionBegin;
 75:   PetscCall(PetscObjectTypeCompare((PetscObject)viewer, PETSCVIEWERASCII, &isascii));
 76:   PetscCheck(isascii, PetscObjectComm((PetscObject)viewer), PETSC_ERR_SUP, "Only ASCII viewer is supported");

 78:   PetscCallMPI(MPI_Comm_rank(MPI_COMM_WORLD, &rank));
 79:   hwloc_topology_init(&topology);
 80:   hwloc_topology_load(topology);
 81:   set = hwloc_bitmap_alloc();

 83:   PetscCallExternal(hwloc_get_proc_cpubind, topology, getpid(), set, HWLOC_CPUBIND_PROCESS);
 84:   PetscCall(PetscViewerASCIIPushSynchronized(viewer));
 85:   PetscCall(PetscViewerASCIISynchronizedPrintf(viewer, "MPI rank %d Process id: %d coreid %d\n", rank, getpid(), hwloc_bitmap_first(set)));
 86:   PetscCall(PetscViewerFlush(viewer));
 87:   hwloc_bitmap_free(set);
 88:   hwloc_topology_destroy(topology);
 89:   PetscFunctionReturn(PETSC_SUCCESS);
 90: }
 91: #endif