#ifndef __FMS_PLATFORM_ #define __FMS_PLATFORM_ ! -*-f90-*-* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! !! !! GNU General Public License !! !! !! !! This file is part of the Flexible Modeling System (FMS). !! !! !! !! FMS is free software; you can redistribute it and/or modify !! !! it and are expected to follow the terms of the GNU General Public !! !! License as published by the Free Software Foundation. !! !! !! !! FMS is distributed in the hope that it will be useful, !! !! but WITHOUT ANY WARRANTY; without even the implied warranty of !! !! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the !! !! GNU General Public License for more details. !! !! !! !! You should have received a copy of the GNU General Public License !! !! along with FMS; if not, write to: !! !! Free Software Foundation, Inc. !! !! 59 Temple Place, Suite 330 !! !! Boston, MA 02111-1307 USA !! !! or see: !! !! http://www.gnu.org/licenses/gpl.txt !! !! !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! #ifdef __sgi #ifdef _COMPILER_VERSION !the MIPSPro compiler defines _COMPILER_VERSION #define sgi_mipspro #else #define sgi_generic #endif #endif #if defined(_CRAY) || defined(sgi_mipspro) #define SGICRAY #endif !parallel machine types #if defined(_CRAY) && !defined(_CRAYT3E) && !defined(_CRAYT3D) #define CRAYPVP #endif #if defined(_CRAYT3E) || defined(_CRAYT3D) || defined(sgi_mipspro) #define SGICRAY_MPP #endif !most compilers support Cray pointers !if you find a compiler that doesn't, #undef this inside a suitable #ifdef #define use_CRI_pointers !values of kind: double and long are 8-byte, float and int are 4-byte !pointer_kind is used for storing addresses as integers #if defined(SGICRAY) #define DOUBLE_KIND 8 #define FLOAT_KIND 4 #define LONG_KIND 8 #define INT_KIND 4 #define SHORT_KIND 2 #define POINTER_KIND 8 #else !these might be different on non-SGICRAY, I believe ! Warning: these numbers may not map to byte sizes for all compilers #define DOUBLE_KIND 8 #define FLOAT_KIND 4 #define LONG_KIND 8 #define INT_KIND 4 #define SHORT_KIND 2 #ifndef _32bits #define POINTER_KIND 8 !DEC$ MESSAGE:'Using 8-byte addressing' #else #define POINTER_KIND 4 !DEC$ MESSAGE:'Using 4-byte addressing' #endif #endif #ifdef sgi_generic !this is for the Edinburgh n32/o32 compiler, which won't accept 8-byte ints at any price #define no_8byte_integers #define LONG_KIND 4 #endif #ifdef __SXdbl4 !When -A dbl4 is used on NEC-SX both 4-byte reals become 8-byte reals. !(and 8-byte reals stay 8-byte reals, so they are both the same) !by forbidding 4-byte reals, 4-byte cmplx is also forbidden #define no_4byte_reals !I think by redefining FLOAT_KIND to 8, I no longer need to redefine NF_* !but I will leave these in for now. #define FLOAT_KIND 8 #define NF_GET_VAR_REAL nf_get_var_double #define NF_GET_VARA_REAL nf_get_vara_double #define NF_GET_ATT_REAL nf_get_att_double #endif #ifdef __CRAYXT_COMPUTE_LINUX_TARGET !Cray XT compilers do not support real*16 computation !also known as 128-bit or quad precision #define NO_QUAD_PRECISION #endif #ifdef use_SGI_GSM !MPI_SGI_Globaltr requires MPI #define use_libMPI #endif #ifdef use_MPI_SMA !embedded shmem within MPI #define use_libMPI #endif #if defined(__INTEL_COMPILER) #define _F95 #define _F2000 #endif #ifdef _F95 !DEC$ MESSAGE:'Using PURE' #define _PURE PURE #else !DEC$ MESSAGE:'Not using PURE' #define _PURE #endif #ifdef _F2000 !DEC$ MESSAGE:'Converting pointers to allocatable components' #define _ALLOCATABLE ALLOCATABLE #define _NULL #define _ALLOCATED ALLOCATED #else !DEC$ MESSAGE:'Using pointers' #define _ALLOCATABLE POINTER #define _NULL =>NULL() #define _ALLOCATED ASSOCIATED #endif #ifdef no_4byte_reals #undef OVERLOAD_R4 #undef OVERLOAD_C4 #endif ! __FMS_PLATFORM_ #endif