/[MITgcm]/MITgcm/eesupp/inc/CPP_EEMACROS.h
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revision 1.15 by edhill, Thu Aug 10 17:46:55 2006 UTC revision 1.22 by jmc, Thu Mar 4 22:02:26 2010 UTC
# Line 2  C $Header$ Line 2  C $Header$
2  C $Name$  C $Name$
3    
4  CBOP  CBOP
5  C     !ROUTINE: CPP_EEMACROS.h  C     !ROUTINE: CPP_EEMACROS.h
6  C     !INTERFACE:  C     !INTERFACE:
7  C     include "CPP_EEMACROS.h "  C     include "CPP_EEMACROS.h "
8  C     !DESCRIPTION:  C     !DESCRIPTION:
9  C     *==========================================================*  C     *==========================================================*
10  C     | CPP_EEMACROS.h                                              C     | CPP_EEMACROS.h
11  C     *==========================================================*  C     *==========================================================*
12  C     | C preprocessor "execution environment" supporting          C     | C preprocessor "execution environment" supporting
13  C     | macros. Use this file to define macros for  simplifying    C     | macros. Use this file to define macros for  simplifying
14  C     | execution environment in which a model runs - as opposed    C     | execution environment in which a model runs - as opposed
15  C     | to the dynamical problem the model solves.                  C     | to the dynamical problem the model solves.
16  C     *==========================================================*  C     *==========================================================*
17  CEOP  CEOP
18    
# Line 35  C     Flag used to indicate which flavou Line 35  C     Flag used to indicate which flavou
35  C     compiler directives to use. Only set one of these.  C     compiler directives to use. Only set one of these.
36  C     USE_SOLARIS_THREADING  - Takes directives for SUN Workshop  C     USE_SOLARIS_THREADING  - Takes directives for SUN Workshop
37  C                              compiler.  C                              compiler.
38  C     USE_KAP_THREADING      - Takes directives for Kuck and  C     USE_KAP_THREADING      - Takes directives for Kuck and
39  C                              Associates multi-threading compiler  C                              Associates multi-threading compiler
40  C                              ( used on Digital platforms ).  C                              ( used on Digital platforms ).
41  C     USE_IRIX_THREADING     - Takes directives for SGI MIPS  C     USE_IRIX_THREADING     - Takes directives for SGI MIPS
# Line 78  C     On some systems low-level hardware Line 78  C     On some systems low-level hardware
78  C     compiler directives here.  C     compiler directives here.
79  #define _BARRIER CALL BARRIER(myThid)  #define _BARRIER CALL BARRIER(myThid)
80    
81  C--   Define the mapping for the BEGIN_CRIT() and  END_CRIT() macros.  C--   Define the mapping for the BEGIN_CRIT() and  END_CRIT() macros.
82  C     On some systems we simply execute this section only using the  C     On some systems we simply execute this section only using the
83  C     master thread i.e. its not really a critical section. We can  C     master thread i.e. its not really a critical section. We can
84  C     do this because we do not use critical sections in any critical  C     do this because we do not use critical sections in any critical
# Line 119  C     can use 4-byte precision, reducing Line 119  C     can use 4-byte precision, reducing
119  C     boosting performance because of a smaller working  C     boosting performance because of a smaller working
120  C     set size. However, on vector CRAY systems this degrades  C     set size. However, on vector CRAY systems this degrades
121  C     performance.  C     performance.
122    C- Note: global_sum/max macros were used to switch to  JAM routines (obsolete);
123    C  in addition, since only the R4 & R8 S/R are coded, GLOBAL RS & RL macros
124    C  enable to call the corresponding R4 or R8 S/R.
125  #ifdef REAL4_IS_SLOW  #ifdef REAL4_IS_SLOW
126  #define _RS Real*8  #define _RS Real*8
127  #define RS_IS_REAL8  #define RS_IS_REAL8
128  #define _GLOBAL_SUM_R4(a,b) CALL GLOBAL_SUM_R8 ( a, b)  #define _GLOBAL_SUM_RS(a,b) CALL GLOBAL_SUM_R8 ( a, b)
129  #define _GLOBAL_MAX_R4(a,b) CALL GLOBAL_MAX_R8 ( a, b )  #define _GLOBAL_MAX_RS(a,b) CALL GLOBAL_MAX_R8 ( a, b )
130  #define _MPI_TYPE_RS MPI_DOUBLE_PRECISION  #define _MPI_TYPE_RS MPI_DOUBLE_PRECISION
131    #ifdef USE_OLD_MACROS_R4R8toRSRL
132    #define _GLOBAL_SUM_R4(a,b) CALL GLOBAL_SUM_R8 ( a, b )
133    #define _GLOBAL_MAX_R4(a,b) CALL GLOBAL_MAX_R8 ( a, b )
134    #endif
135  #else  #else
136  #define _RS Real*4  #define _RS Real*4
137  #define RS_IS_REAL4  #define RS_IS_REAL4
138  #define _GLOBAL_SUM_R4(a,b) CALL GLOBAL_SUM_R4 ( a, b )  #define _GLOBAL_SUM_RS(a,b) CALL GLOBAL_SUM_R4 ( a, b )
139  #define _GLOBAL_MAX_R4(a,b) CALL GLOBAL_MAX_R4 ( a, b )  #define _GLOBAL_MAX_RS(a,b) CALL GLOBAL_MAX_R4 ( a, b )
140  #define _MPI_TYPE_RS MPI_REAL  #define _MPI_TYPE_RS MPI_REAL
141    #ifdef USE_OLD_MACROS_R4R8toRSRL
142    cph Needed for some backward compatibility with broken packages
143    #define _GLOBAL_SUM_R4(a,b) CALL GLOBAL_SUM_R4 ( a, b )
144    #define _GLOBAL_MAX_R4(a,b) CALL GLOBAL_MAX_R4 ( a, b )
145    #endif
146  #endif  #endif
 #define _EXCH_XY_R4(a,b) CALL EXCH_XY_RL ( a, b )  
 #define _EXCH_XYZ_R4(a,b) CALL EXCH_XYZ_RL ( a, b )  
147    
148  #define _RL Real*8  #define _RL Real*8
149  #define RL_IS_REAL8  #define RL_IS_REAL8
150  #define _EXCH_XY_R8(a,b) CALL EXCH_XY_RL ( a, b )  #define _GLOBAL_SUM_RL(a,b) CALL GLOBAL_SUM_R8 ( a, b )
151  #define _EXCH_XYZ_R8(a,b) CALL EXCH_XYZ_RL ( a, b )  #define _GLOBAL_MAX_RL(a,b) CALL GLOBAL_MAX_R8 ( a, b )
152    #ifdef USE_OLD_MACROS_R4R8toRSRL
153    cph Needed for some backward compatibility with broken packages
154  #define _GLOBAL_SUM_R8(a,b) CALL GLOBAL_SUM_R8 ( a, b )  #define _GLOBAL_SUM_R8(a,b) CALL GLOBAL_SUM_R8 ( a, b )
155  #define _GLOBAL_MAX_R8(a,b) CALL GLOBAL_MAX_R8 ( a, b )  #define _GLOBAL_MAX_R8(a,b) CALL GLOBAL_MAX_R8 ( a, b )
156    #endif
157  #define _MPI_TYPE_RL MPI_DOUBLE_PRECISION  #define _MPI_TYPE_RL MPI_DOUBLE_PRECISION
158    
 #define _EXCH_XY_RS(a,b) CALL EXCH_XY_RL ( a, b )  
 #define _EXCH_XYZ_RS(a,b) CALL EXCH_XYZ_RL ( a, b )  
 #define _EXCH_XY_RL(a,b) CALL EXCH_XY_RL ( a, b )  
 #define _EXCH_XYZ_RL(a,b) CALL EXCH_XYZ_RL ( a, b )  
   
159  #define _MPI_TYPE_R4 MPI_REAL  #define _MPI_TYPE_R4 MPI_REAL
160  #if (defined (TARGET_SGI) || defined (TARGET_AIX) || defined (TARGET_LAM))  #if (defined (TARGET_SGI) || defined (TARGET_AIX) || defined (TARGET_LAM))
161  #define _MPI_TYPE_R8 MPI_DOUBLE_PRECISION  #define _MPI_TYPE_R8 MPI_DOUBLE_PRECISION
# Line 157  C     performance. Line 165  C     performance.
165  #define _R4 Real*4  #define _R4 Real*4
166  #define _R8 Real*8  #define _R8 Real*8
167    
168  C--   Control use of JAM routines for Artic network  C- Note: a) exch macros were used to switch to  JAM routines (obsolete)
169    C        b) exch R4 & R8 macros are not practically used ; if needed,
170    C           will directly call the corrresponding S/R.
171    #define _EXCH_XY_RS(a,b) CALL EXCH_XY_RS ( a, b )
172    #define _EXCH_XY_RL(a,b) CALL EXCH_XY_RL ( a, b )
173    #define _EXCH_XYZ_RS(a,b) CALL EXCH_XYZ_RS ( a, b )
174    #define _EXCH_XYZ_RL(a,b) CALL EXCH_XYZ_RL ( a, b )
175    #ifdef USE_OLD_MACROS_R4R8toRSRL
176    cph Needed for some backward compatibility with broken packages
177    #define _EXCH_XY_R4(a,b) CALL EXCH_XY_RS ( a, b )
178    #define _EXCH_XY_R8(a,b) CALL EXCH_XY_RL ( a, b )
179    #define _EXCH_XYZ_R4(a,b) CALL EXCH_XYZ_RS ( a, b )
180    #define _EXCH_XYZ_R8(a,b) CALL EXCH_XYZ_RL ( a, b )
181    #endif
182    
183    C--   Control use of JAM routines for Artic network (no longer supported)
184  C     These invoke optimized versions of "exchange" and "sum" that  C     These invoke optimized versions of "exchange" and "sum" that
185  C     utilize the programmable aspect of Artic cards.  C     utilize the programmable aspect of Artic cards.
186  #ifdef LETS_MAKE_JAM  CXXX No longer supported ; started to remove JAM routines.
187  #define _GLOBAL_SUM_R4(a,b) CALL GLOBAL_SUM_R8_JAM ( a, b)  CXXX #ifdef LETS_MAKE_JAM
188  #define _EXCH_XY_R4(a,b) CALL EXCH_XY_R8_JAM ( a, b )  CXXX #define _GLOBAL_SUM_RS(a,b) CALL GLOBAL_SUM_R8_JAM ( a, b)
189  #define _EXCH_XYZ_R4(a,b) CALL EXCH_XYZ_R8_JAM ( a, b )  CXXX #define _GLOBAL_SUM_RL(a,b) CALL GLOBAL_SUM_R8_JAM ( a, b )
190  #define _EXCH_XY_R8(a,b) CALL EXCH_XY_R8_JAM ( a, b )  CXXX #define _EXCH_XY_RS(a,b) CALL EXCH_XY_R8_JAM ( a, b )
191  #define _EXCH_XYZ_R8(a,b) CALL EXCH_XYZ_R8_JAM ( a, b )  CXXX #define _EXCH_XY_RL(a,b) CALL EXCH_XY_R8_JAM ( a, b )
192  #define _GLOBAL_SUM_R8(a,b) CALL GLOBAL_SUM_R8_JAM ( a, b )  CXXX #define _EXCH_XYZ_RS(a,b) CALL EXCH_XYZ_R8_JAM ( a, b )
193    CXXX #define _EXCH_XYZ_RL(a,b) CALL EXCH_XYZ_R8_JAM ( a, b )
194  #define _EXCH_XY_RS(a,b) CALL EXCH_XY_R8_JAM ( a, b )  CXXX #endif
195  #define _EXCH_XYZ_RS(a,b) CALL EXCH_XYZ_R8_JAM ( a, b )  
 #define _EXCH_XY_RL(a,b) CALL EXCH_XY_R8_JAM ( a, b )  
 #define _EXCH_XYZ_RL(a,b) CALL EXCH_XYZ_R8_JAM ( a, b )  
 #endif  
   
196  C--   Control use of "double" precision constants.  C--   Control use of "double" precision constants.
197  C     Use D0 where it means REAL*8 but not where it means REAL*16  C     Use D0 where it means REAL*8 but not where it means REAL*16
198  #ifdef REAL_D0_IS_16BYTES  #ifdef REAL_D0_IS_16BYTES
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