/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2005 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2006-2012 Cisco Systems, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #ifndef OMPI_FORTRAN_BASE_CONSTANTS_H #define OMPI_FORTRAN_BASE_CONSTANTS_H #include "ompi_config.h" /* * Several variables are used to link against MPI F77 constants which * correspond to addresses, e.g. MPI_BOTTOM, and are implemented via * common blocks. * * We use common blocks so that in the C wrapper functions, we can * compare the address that comes in against known addresses (e.g., if * the "status" argument in MPI_RECV is the address of the common * block for the fortran equivalent of MPI_STATUS_IGNORE, then we know * to pass the C MPI_STATUS_IGNORE to the C MPI_Recv function). As * such, we never look at the *value* of these variables (indeed, * they're never actually initialized), but instead only ever look at * the *address* of these variables. * * As such, it is not strictly necessary that the size and type of our * C variables matches that of the common Fortran block variables. * However, good programming form says that we should match, so we do. * * Note, however, that the alignments of the Fortran common block and * the C variable may not match (e.g., Intel 9.0 compilers on 64 bit * platforms will put the alignment of a double on 4 bytes, but put * the alignment of all common blocks on 16 bytes). This only matters * (to some compilers!), however, if you initialize the C variable in * the global scope. If the C global instantiation is not * initialized, the compiler/linker seems to "figure it all out" and * make the alignments match. * * Since we made the fundamental decision to support all 4 common * fortran compiler symbol conventions within the same library for * those compilers who support weak symbols, we need to have 4 symbols * for each of the fortran address constants. As described above, we * have to have known *pointer* values for the fortran addresses * (e.g., MPI_STATUS_IGNORE). So when the fortran wrapper for * MPI_RECV gets (MPI_Fint *status), it can check (status == * some_sentinel_value) to know that it got the Fortran equivalent of * MPI_STATUS_IGNORE and therefore pass the C MPI_STATUS_IGNORE to the * C MPI_Recv. * * We do this by having a "common" block in mpif.h: * * INTEGER MPI_STATUS_IGNORE(MPI_STATUS_SIZE) * common /mpi_fortran_status_ignore/ MPI_STATUS_IGNORE * * This makes the fortran variable MPI_STATUS_IGNORE effectively be an * alias for the C variable "mpi_fortran_status_ignore" -- but the C * symbol name is according to the fortran compiler's naming symbol * convention bais. So it could be MPI_FORTRAN_STATUS_IGNORE, * mpi_fortran_status_ignore, mpi_fortran_status_ignore_, or * mpi_fortran_status_ignore__. * * Hence, we have to have *4* C symbols for this, and them compare for * all of them in the fortran MPI_RECV wrapper. :-( I can't think of * any better way to do this. * * I'm putting these 4 comparisons in macros (on systems where we * don't support the 4 symbols -- e.g., OSX, where we don't have weak * symbols -- it'll only be one comparison), so if anyone things of * something better than this, you should only need to modify this * file. */ #define DECL(type, upper_case, lower_case, single_u, double_u) \ OMPI_DECLSPEC extern type upper_case; \ OMPI_DECLSPEC extern type lower_case; \ OMPI_DECLSPEC extern type single_u; \ OMPI_DECLSPEC extern type double_u /* Note that the rationale for the types of each of these variables is discussed in ompi/include/mpif-common.h. Do not change the types without also changing ompi/runtime/ompi_mpi_init.c and ompi/include/mpif-common.h. */ DECL(int, MPI_FORTRAN_BOTTOM, mpi_fortran_bottom, mpi_fortran_bottom_, mpi_fortran_bottom__); DECL(int, MPI_FORTRAN_IN_PLACE, mpi_fortran_in_place, mpi_fortran_in_place_, mpi_fortran_in_place__); DECL(char *, MPI_FORTRAN_ARGV_NULL, mpi_fortran_argv_null, mpi_fortran_argv_null_, mpi_fortran_argv_null__); DECL(double, MPI_FORTRAN_ARGVS_NULL, mpi_fortran_argvs_null, mpi_fortran_argvs_null_, mpi_fortran_argvs_null__); DECL(int *, MPI_FORTRAN_ERRCODES_IGNORE, mpi_fortran_errcodes_ignore, mpi_fortran_errcodes_ignore_, mpi_fortran_errcodes_ignore__); DECL(int *, MPI_FORTRAN_STATUS_IGNORE, mpi_fortran_status_ignore, mpi_fortran_status_ignore_, mpi_fortran_status_ignore__); DECL(double, MPI_FORTRAN_STATUSES_IGNORE, mpi_fortran_statuses_ignore, mpi_fortran_statuses_ignore_, mpi_fortran_statuses_ignore__); /* * Create macros to do the checking. Only check for all 4 if we have * weak symbols. Otherwise, just check for the one relevant symbol. */ #if OPAL_HAVE_WEAK_SYMBOLS #define OMPI_IS_FORTRAN_BOTTOM(addr) \ (addr == (void*) &MPI_FORTRAN_BOTTOM || \ addr == (void*) &mpi_fortran_bottom || \ addr == (void*) &mpi_fortran_bottom_ || \ addr == (void*) &mpi_fortran_bottom__) #define OMPI_IS_FORTRAN_IN_PLACE(addr) \ (addr == (void*) &MPI_FORTRAN_IN_PLACE || \ addr == (void*) &mpi_fortran_in_place || \ addr == (void*) &mpi_fortran_in_place_ || \ addr == (void*) &mpi_fortran_in_place__) #define OMPI_IS_FORTRAN_ARGV_NULL(addr) \ (addr == (void*) &MPI_FORTRAN_ARGV_NULL || \ addr == (void*) &mpi_fortran_argv_null || \ addr == (void*) &mpi_fortran_argv_null_ || \ addr == (void*) &mpi_fortran_argv_null__) #define OMPI_IS_FORTRAN_ARGVS_NULL(addr) \ (addr == (void*) &MPI_FORTRAN_ARGVS_NULL || \ addr == (void*) &mpi_fortran_argvs_null || \ addr == (void*) &mpi_fortran_argvs_null_ || \ addr == (void*) &mpi_fortran_argvs_null__) #define OMPI_IS_FORTRAN_ERRCODES_IGNORE(addr) \ (addr == (void*) &MPI_FORTRAN_ERRCODES_IGNORE || \ addr == (void*) &mpi_fortran_errcodes_ignore || \ addr == (void*) &mpi_fortran_errcodes_ignore_ || \ addr == (void*) &mpi_fortran_errcodes_ignore__) #define OMPI_IS_FORTRAN_STATUS_IGNORE(addr) \ (addr == (void*) &MPI_FORTRAN_STATUS_IGNORE || \ addr == (void*) &mpi_fortran_status_ignore || \ addr == (void*) &mpi_fortran_status_ignore_ || \ addr == (void*) &mpi_fortran_status_ignore__) #define OMPI_IS_FORTRAN_STATUSES_IGNORE(addr) \ (addr == (void*) &MPI_FORTRAN_STATUSES_IGNORE || \ addr == (void*) &mpi_fortran_statuses_ignore || \ addr == (void*) &mpi_fortran_statuses_ignore_ || \ addr == (void*) &mpi_fortran_statuses_ignore__) #elif OMPI_FORTRAN_CAPS #define OMPI_IS_FORTRAN_BOTTOM(addr) \ (addr == (void*) &MPI_FORTRAN_BOTTOM) #define OMPI_IS_FORTRAN_IN_PLACE(addr) \ (addr == (void*) &MPI_FORTRAN_IN_PLACE) #define OMPI_IS_FORTRAN_ARGV_NULL(addr) \ (addr == (void*) &MPI_FORTRAN_ARGV_NULL) #define OMPI_IS_FORTRAN_ARGVS_NULL(addr) \ (addr == (void*) &MPI_FORTRAN_ARGVS_NULL) #define OMPI_IS_FORTRAN_ERRCODES_IGNORE(addr) \ (addr == (void*) &MPI_FORTRAN_ERRCODES_IGNORE) #define OMPI_IS_FORTRAN_STATUS_IGNORE(addr) \ (addr == (void*) &MPI_FORTRAN_STATUS_IGNORE) #define OMPI_IS_FORTRAN_STATUSES_IGNORE(addr) \ (addr == (void*) &MPI_FORTRAN_STATUSES_IGNORE) #elif OMPI_FORTRAN_PLAIN #define OMPI_IS_FORTRAN_BOTTOM(addr) \ (addr == (void*) &mpi_fortran_bottom) #define OMPI_IS_FORTRAN_IN_PLACE(addr) \ (addr == (void*) &mpi_fortran_in_place) #define OMPI_IS_FORTRAN_ARGV_NULL(addr) \ (addr == (void*) &mpi_fortran_argv_null) #define OMPI_IS_FORTRAN_ARGVS_NULL(addr) \ (addr == (void*) &mpi_fortran_argvs_null) #define OMPI_IS_FORTRAN_ERRCODES_IGNORE(addr) \ (addr == (void*) &mpi_fortran_errcodes_ignore) #define OMPI_IS_FORTRAN_STATUS_IGNORE(addr) \ (addr == (void*) &mpi_fortran_status_ignore) #define OMPI_IS_FORTRAN_STATUSES_IGNORE(addr) \ (addr == (void*) &mpi_fortran_statuses_ignore) #elif OMPI_FORTRAN_SINGLE_UNDERSCORE #define OMPI_IS_FORTRAN_BOTTOM(addr) \ (addr == (void*) &mpi_fortran_bottom_) #define OMPI_IS_FORTRAN_IN_PLACE(addr) \ (addr == (void*) &mpi_fortran_in_place_) #define OMPI_IS_FORTRAN_ARGV_NULL(addr) \ (addr == (void*) &mpi_fortran_argv_null_) #define OMPI_IS_FORTRAN_ARGVS_NULL(addr) \ (addr == (void*) &mpi_fortran_argvs_null_) #define OMPI_IS_FORTRAN_ERRCODES_IGNORE(addr) \ (addr == (void*) &mpi_fortran_errcodes_ignore_) #define OMPI_IS_FORTRAN_STATUS_IGNORE(addr) \ (addr == (void*) &mpi_fortran_status_ignore_) #define OMPI_IS_FORTRAN_STATUSES_IGNORE(addr) \ (addr == (void*) &mpi_fortran_statuses_ignore_) #else #define OMPI_IS_FORTRAN_BOTTOM(addr) \ (addr == (void*) &mpi_fortran_bottom__) #define OMPI_IS_FORTRAN_IN_PLACE(addr) \ (addr == (void*) &mpi_fortran_in_place__) #define OMPI_IS_FORTRAN_ARGV_NULL(addr) \ (addr == (void*) &mpi_fortran_argv_null__) #define OMPI_IS_FORTRAN_ARGVS_NULL(addr) \ (addr == (void*) &mpi_fortran_argvs_null__) #define OMPI_IS_FORTRAN_ERRCODES_IGNORE(addr) \ (addr == (void*) &mpi_fortran_errcodes_ignore__) #define OMPI_IS_FORTRAN_STATUS_IGNORE(addr) \ (addr == (void*) &mpi_fortran_status_ignore__) #define OMPI_IS_FORTRAN_STATUSES_IGNORE(addr) \ (addr == (void*) &mpi_fortran_statuses_ignore__) #endif /* weak / specific symbol type */ /* Convert between Fortran and C MPI_BOTTOM */ #define OMPI_F2C_BOTTOM(addr) (OMPI_IS_FORTRAN_BOTTOM(addr) ? MPI_BOTTOM : (addr)) #define OMPI_F2C_IN_PLACE(addr) (OMPI_IS_FORTRAN_IN_PLACE(addr) ? MPI_IN_PLACE : (addr)) #endif /* OMPI_FORTRAN_BASE_CONSTANTS_H */