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| author | Joseph Hunkeler <jhunkeler@gmail.com> | 2015-03-05 18:05:27 -0500 |
|---|---|---|
| committer | Joseph Hunkeler <jhunkeler@gmail.com> | 2015-03-05 18:05:27 -0500 |
| commit | 4a3aef3f7236d2b3267aead61f11c587c6f4bddb (patch) | |
| tree | bea89287f8cf6290fc230fb82fb11b3b9a5c6e0f /include/cfortran.h.3.9 | |
| parent | 9166f1762976cb64acfd8c9ecc067132ffefa615 (diff) | |
| download | calfuse-4a3aef3f7236d2b3267aead61f11c587c6f4bddb.tar.gz | |
Further improvements
Diffstat (limited to 'include/cfortran.h.3.9')
| -rw-r--r-- | include/cfortran.h.3.9 | 2149 |
1 files changed, 0 insertions, 2149 deletions
diff --git a/include/cfortran.h.3.9 b/include/cfortran.h.3.9 deleted file mode 100644 index 0688224..0000000 --- a/include/cfortran.h.3.9 +++ /dev/null @@ -1,2149 +0,0 @@ -/* cfortran.h 3.9 */ /* anonymous ftp@zebra.desy.de */ -/* Burkhard Burow burow@desy.de 1990 - 1997. */ - -#ifndef __CFORTRAN_LOADED -#define __CFORTRAN_LOADED - -/* - THIS FILE IS PROPERTY OF BURKHARD BUROW. IF YOU ARE USING THIS FILE YOU - SHOULD ALSO HAVE ACCESS TO CFORTRAN.DOC WHICH PROVIDES TERMS FOR USING, - MODIFYING, COPYING AND DISTRIBUTING THE CFORTRAN.H PACKAGE. -*/ - -/******* - Modifications: - Oct 1997: Changed symbol name extname to appendus (PDW/HSTX) - (Conflicted with a common variable name in FTOOLS) - Nov 1997: If g77Fortran defined, also define f2cFortran (PDW/HSTX) - Nov 1997: Define MIN(A,B) as _cfMIN(A,B) - Feb 1998: Let VMS see the NUM_ELEMS code. Lets programs treat - single strings as vectors with single elements - *******/ -#define MIN(A,B) _cfMIN(A,B) - -/* - Avoid symbols already used by compilers and system *.h: - __ - OSF1 zukal06 V3.0 347 alpha, cc -c -std1 cfortest.c - - */ - - -/* First prepare for the C compiler. */ - -#ifndef ANSI_C_preprocessor /* i.e. user can override. */ -#ifdef __CF__KnR -#define ANSI_C_preprocessor 0 -#else -#ifdef __STDC__ -#define ANSI_C_preprocessor 1 -#else -#define _cfleft 1 -#define _cfright -#define _cfleft_cfright 0 -#define ANSI_C_preprocessor _cfleft/**/_cfright -#endif -#endif -#endif - -#if ANSI_C_preprocessor -#define _0(A,B) A##B -#define _(A,B) _0(A,B) /* see cat,xcat of K&R ANSI C p. 231 */ -#define _2(A,B) A##B /* K&R ANSI C p.230: .. identifier is not replaced */ -#define _3(A,B,C) _(A,_(B,C)) -#else /* if it turns up again during rescanning. */ -#define _(A,B) A/**/B -#define _2(A,B) A/**/B -#define _3(A,B,C) A/**/B/**/C -#endif - -#if (defined(vax)&&defined(unix)) || (defined(__vax__)&&defined(__unix__)) -#define VAXUltrix -#endif - -#include <stdio.h> /* NULL [in all machines stdio.h] */ -#include <string.h> /* strlen, memset, memcpy, memchr. */ -#if !( defined(VAXUltrix) || defined(sun) || (defined(apollo)&&!defined(__STDCPP__)) ) -#include <stdlib.h> /* malloc,free */ -#else -#include <malloc.h> /* Had to be removed for DomainOS h105 10.4 sys5.3 425t*/ -#ifdef apollo -#define __CF__APOLLO67 /* __STDCPP__ is in Apollo 6.8 (i.e. ANSI) and onwards */ -#endif -#endif - -#if !defined(__GNUC__) && !defined(__sun) && (defined(sun)||defined(VAXUltrix)||defined(lynx)) -#define __CF__KnR /* Sun, LynxOS and VAX Ultrix cc only supports K&R. */ - /* Manually define __CF__KnR for HP if desired/required.*/ -#endif /* i.e. We will generate Kernighan and Ritchie C. */ -/* Note that you may define __CF__KnR before #include cfortran.h, in order to -generate K&R C instead of the default ANSI C. The differences are mainly in the -function prototypes and declarations. All machines, except the Apollo, work -with either style. The Apollo's argument promotion rules require ANSI or use of -the obsolete std_$call which we have not implemented here. Hence on the Apollo, -only C calling FORTRAN subroutines will work using K&R style.*/ - - -/* Remainder of cfortran.h depends on the Fortran compiler. */ - -#if defined(CLIPPERFortran) || defined(g77Fortran) /* 11/3/97 PDW */ -#define f2cFortran -#endif - -/* VAX/VMS does not let us \-split long #if lines. */ -/* Split #if into 2 because some HP-UX can't handle long #if */ -#if !(defined(NAGf90Fortran)||defined(f2cFortran)||defined(hpuxFortran)||defined(apolloFortran)||defined(sunFortran)||defined(IBMR2Fortran)||defined(CRAYFortran)) -#if !(defined(mipsFortran)||defined(DECFortran)||defined(vmsFortran)||defined(CONVEXFortran)||defined(PowerStationFortran)||defined(AbsoftUNIXFortran)||defined(SXFortran)) -/* If no Fortran compiler is given, we choose one for the machines we know. */ -#if defined(lynx) || defined(VAXUltrix) -#define f2cFortran /* Lynx: Only support f2c at the moment. - VAXUltrix: f77 behaves like f2c. - Support f2c or f77 with gcc, vcc with f2c. - f77 with vcc works, missing link magic for f77 I/O.*/ -#endif -#if defined(WIN32) || defined(macintosh) -#define f2cFortran -#endif -#if defined(__hpux) /* 921107: Use __hpux instead of __hp9000s300 */ -#define hpuxFortran /* Should also allow hp9000s7/800 use.*/ -#endif -#if defined(apollo) -#define apolloFortran /* __CF__APOLLO67 also defines some behavior. */ -#endif -#if defined(sun) || defined(__sun) -#define sunFortran -#endif -#if defined(_IBMR2) -#define IBMR2Fortran -#endif -#if defined(_CRAY) -#define CRAYFortran /* _CRAYT3E also defines some behavior. */ -#endif -#if defined(_SX) -#define SXFortran -#endif -#if defined(mips) || defined(__mips) -#define mipsFortran -#endif -#if defined(vms) || defined(__vms) -#define vmsFortran -#endif -#if defined(__alpha) && defined(__unix__) -#define DECFortran -#endif -#if defined(__convex__) -#define CONVEXFortran -#endif -#if defined(VISUAL_CPLUSPLUS) -#define PowerStationFortran -#endif -#endif /* ...Fortran */ -#endif /* ...Fortran */ - -/* Split #if into 2 because some HP-UX can't handle long #if */ -#if !(defined(NAGf90Fortran)||defined(f2cFortran)||defined(hpuxFortran)||defined(apolloFortran)||defined(sunFortran)||defined(IBMR2Fortran)||defined(CRAYFortran)) -#if !(defined(mipsFortran)||defined(DECFortran)||defined(vmsFortran)||defined(CONVEXFortran)||defined(PowerStationFortran)||defined(AbsoftUNIXFortran)||defined(SXFortran)) -/* If your compiler barfs on ' #error', replace # with the trigraph for # */ - #error "cfortran.h: Can't find your environment among:\ - - MIPS cc and f77 2.0. (e.g. Silicon Graphics, DECstations, ...) \ - - IBM AIX XL C and FORTRAN Compiler/6000 Version 01.01.0000.0000 \ - - VAX VMS CC 3.1 and FORTRAN 5.4. \ - - Alpha VMS DEC C 1.3 and DEC FORTRAN 6.0. \ - - Alpha OSF DEC C and DEC Fortran for OSF/1 AXP Version 1.2 \ - - Apollo DomainOS 10.2 (sys5.3) with f77 10.7 and cc 6.7. \ - - CRAY \ - - NEC SX-4 SUPER-UX \ - - CONVEX \ - - Sun \ - - PowerStation Fortran with Visual C++ \ - - HP9000s300/s700/s800 Latest test with: HP-UX A.08.07 A 9000/730 \ - - LynxOS: cc or gcc with f2c. \ - - VAXUltrix: vcc,cc or gcc with f2c. gcc or cc with f77. \ - - f77 with vcc works; but missing link magic for f77 I/O. \ - - NO fort. None of gcc, cc or vcc generate required names.\ - - f2c : Use #define f2cFortran, or cc -Df2cFortran \ - - NAG f90: Use #define NAGf90Fortran, or cc -DNAGf90Fortran \ - - g77 v0.5.18 for linux \ - - Absoft UNIX F77: Use #define AbsoftUNIXFortran or cc -DAbsoftUNIXFortran" -/* Compiler must throw us out at this point! */ -#endif -#endif - - -#if defined(VAXC) && !defined(__VAXC) -#define OLD_VAXC -#pragma nostandard /* Prevent %CC-I-PARAMNOTUSED. */ -#endif - -/* Throughout cfortran.h we use: UN = Uppercase Name. LN = Lowercase Name. */ - -#if defined(f2cFortran) || defined(NAGf90Fortran) || defined(DECFortran) || defined(mipsFortran) || defined(apolloFortran) || defined(sunFortran) || defined(CONVEXFortran) || defined(SXFortran) || defined(appendus) /* 10/31/97 PDW */ -#define CFC_(UN,LN) _(LN,_) /* Lowercase FORTRAN symbols. */ -#define orig_fcallsc(UN,LN) CFC_(UN,LN) -#else -#if defined(CRAYFortran) || defined(PowerStationFortran) -#ifdef _CRAY /* (UN), not UN, circumvents CRAY preprocessor bug. */ -#define CFC_(UN,LN) (UN) /* Uppercase FORTRAN symbols. */ -#else /* At least VISUAL_CPLUSPLUS barfs on (UN), so need UN. */ -#define CFC_(UN,LN) UN /* Uppercase FORTRAN symbols. */ -#endif -#define orig_fcallsc(UN,LN) CFC_(UN,LN) /* CRAY insists on arg.'s here. */ -#else /* For following machines one may wish to change the fcallsc default. */ -#define CF_SAME_NAMESPACE -#ifdef vmsFortran -#define CFC_(UN,LN) LN /* Either case FORTRAN symbols. */ - /* BUT we usually use UN for C macro to FORTRAN routines, so use LN here,*/ - /* because VAX/VMS doesn't do recursive macros. */ -#define orig_fcallsc(UN,LN) UN -#else /* HP-UX without +ppu or IBMR2 without -qextname. NOT reccomended. */ -#define CFC_(UN,LN) LN /* Lowercase FORTRAN symbols. */ -#define orig_fcallsc(UN,LN) CFC_(UN,LN) -#endif /* vmsFortran */ -#endif /* CRAYFortran PowerStationFortran */ -#endif /* ....Fortran */ - -#define fcallsc(UN,LN) orig_fcallsc(UN,LN) -#define preface_fcallsc(P,p,UN,LN) CFC_(_(P,UN),_(p,LN)) -#define append_fcallsc(P,p,UN,LN) CFC_(_(UN,P),_(LN,p)) - -#define C_FUNCTION(UN,LN) fcallsc(UN,LN) -#define FORTRAN_FUNCTION(UN,LN) CFC_(UN,LN) - -#ifndef COMMON_BLOCK -#ifndef CONVEXFortran -#ifndef CLIPPERFortran -#ifndef AbsoftUNIXFortran -#define COMMON_BLOCK(UN,LN) CFC_(UN,LN) -#else -#define COMMON_BLOCK(UN,LN) _(_C,LN) -#endif -#else -#define COMMON_BLOCK(UN,LN) _(LN,__) -#endif -#else -#define COMMON_BLOCK(UN,LN) _3(_,LN,_) -#endif -#endif - -#ifndef DOUBLE_PRECISION -#if defined(CRAYFortran) && !defined(_CRAYT3E) -#define DOUBLE_PRECISION long double -#else -#define DOUBLE_PRECISION double -#endif -#endif - -#ifndef FORTRAN_REAL -#if defined(CRAYFortran) && defined(_CRAYT3E) -#define FORTRAN_REAL double -#else -#define FORTRAN_REAL float -#endif -#endif - -#ifdef CRAYFortran -#ifdef _CRAY -#include <fortran.h> -#else -#include "fortran.h" /* i.e. if crosscompiling assume user has file. */ -#endif -#define FLOATVVVVVVV_cfPP (FORTRAN_REAL *) /* Used for C calls FORTRAN. */ -/* CRAY's double==float but CRAY says pointers to doubles and floats are diff.*/ -#define VOIDP (void *) /* When FORTRAN calls C, we don't know if C routine - arg.'s have been declared float *, or double *. */ -#else -#define FLOATVVVVVVV_cfPP -#define VOIDP -#endif - -#ifdef vmsFortran -#if defined(vms) || defined(__vms) -#include <descrip.h> -#else -#include "descrip.h" /* i.e. if crosscompiling assume user has file. */ -#endif -#endif - -#ifdef sunFortran -#if defined(sun) || defined(__sun) -#include <math.h> /* Sun's FLOATFUNCTIONTYPE, ASSIGNFLOAT, RETURNFLOAT. */ -#else -#include "math.h" /* i.e. if crosscompiling assume user has file. */ -#endif -/* At least starting with the default C compiler SC3.0.1 of SunOS 5.3, - * FLOATFUNCTIONTYPE, ASSIGNFLOAT, RETURNFLOAT are not required and not in - * <math.h>, since sun C no longer promotes C float return values to doubles. - * Therefore, only use them if defined. - * Even if gcc is being used, assume that it exhibits the Sun C compiler - * behavior in order to be able to use *.o from the Sun C compiler. - * i.e. If FLOATFUNCTIONTYPE, etc. are in math.h, they required by gcc. - */ -#endif - -#ifndef apolloFortran -#define COMMON_BLOCK_DEF(DEFINITION, NAME) extern DEFINITION NAME -#define CF_NULL_PROTO -#else /* HP doesn't understand #elif. */ -/* Without ANSI prototyping, Apollo promotes float functions to double. */ -/* Note that VAX/VMS, IBM, Mips choke on 'type function(...);' prototypes. */ -#define CF_NULL_PROTO ... -#ifndef __CF__APOLLO67 -#define COMMON_BLOCK_DEF(DEFINITION, NAME) \ - DEFINITION NAME __attribute((__section(NAME))) -#else -#define COMMON_BLOCK_DEF(DEFINITION, NAME) \ - DEFINITION NAME #attribute[section(NAME)] -#endif -#endif - -#ifdef __cplusplus -#undef CF_NULL_PROTO -#define CF_NULL_PROTO ... -#endif - -#ifdef mipsFortran -#define CF_DECLARE_GETARG int f77argc; char **f77argv -#define CF_SET_GETARG(ARGC,ARGV) f77argc = ARGC; f77argv = ARGV -#else -#define CF_DECLARE_GETARG -#define CF_SET_GETARG(ARGC,ARGV) -#endif - -#ifdef OLD_VAXC /* Allow %CC-I-PARAMNOTUSED. */ -#pragma standard -#endif - -#define ACOMMA , -#define ACOLON ; - -/*-------------------------------------------------------------------------*/ - -/* UTILITIES USED WITHIN CFORTRAN.H */ - -#define _cfMIN(A,B) (A<B?A:B) -#ifndef FALSE -#define FALSE (1==0) -#endif - -/* 970211 - XIX.145: - firstindexlength - better name is all_but_last_index_lengths - secondindexlength - better name is last_index_length - */ -#define firstindexlength(A) (sizeof(A[0])==1 ? 1 : (sizeof(A) / sizeof(A[0])) ) -#define secondindexlength(A) (sizeof(A[0])==1 ? sizeof(A) : sizeof(A[0]) ) - -/* Behavior of FORTRAN LOGICAL. All machines' LOGICAL is same size as C's int. -Conversion is automatic except for arrays which require F2CLOGICALV/C2FLOGICALV. -f2c, MIPS f77 [DECstation, SGI], VAX Ultrix f77, -HP-UX f77 : as in C. -VAX/VMS FORTRAN, VAX Ultrix fort, -Absoft Unix Fortran, IBM RS/6000 xlf : LS Bit = 0/1 = TRUE/FALSE. -Apollo : neg. = TRUE, else FALSE. -[Apollo accepts -1 as TRUE for function values, but NOT all other neg. values.] -[DECFortran for Ultrix RISC is also called f77 but is the same as VAX/VMS.] -[MIPS f77 treats .eqv./.neqv. as .eq./.ne. and hence requires LOGICAL_STRICT.]*/ - -#if defined(NAGf90Fortran) || defined(f2cFortran) || defined(mipsFortran) || defined(PowerStationFortran) || defined(hpuxFortran800) || defined(AbsoftUNIXFortran) || defined(SXFortran) -/* SX/PowerStationFortran have 0 and 1 defined, others are neither T nor F. */ -/* hpuxFortran800 has 0 and 0x01000000 defined. Others are unknown. */ -#define LOGICAL_STRICT /* Other Fortran have .eqv./.neqv. == .eq./.ne. */ -#endif - -#define C2FLOGICALV(A,I) \ - do {int __i; for(__i=0;__i<I;__i++) A[__i]=C2FLOGICAL(A[__i]); } while (FALSE) -#define F2CLOGICALV(A,I) \ - do {int __i; for(__i=0;__i<I;__i++) A[__i]=F2CLOGICAL(A[__i]); } while (FALSE) - -#if defined(apolloFortran) -#define C2FLOGICAL(L) ((L)?-1:(L)&~((unsigned)1<<sizeof(int)*8-1)) -#define F2CLOGICAL(L) ((L)<0?(L):0) -#else -#if defined(CRAYFortran) -#define C2FLOGICAL(L) _btol(L) -#define F2CLOGICAL(L) _ltob(&(L)) /* Strangely _ltob() expects a pointer. */ -#else -#if defined(IBMR2Fortran) || defined(vmsFortran) || defined(DECFortran) || defined(AbsoftUNIXFortran) -#define C2FLOGICAL(L) ((L)?(L)|1:(L)&~(int)1) -#define F2CLOGICAL(L) ((L)&1?(L):0) -#else -#if defined(CONVEXFortran) -#define C2FLOGICAL(L) ((L) ? ~0 : 0 ) -#define F2CLOGICAL(L) (L) -#else /* others evaluate LOGICALs as for C. */ -#define C2FLOGICAL(L) (L) -#define F2CLOGICAL(L) (L) -#ifndef LOGICAL_STRICT -#undef C2FLOGICALV -#undef F2CLOGICALV -#define C2FLOGICALV(A,I) -#define F2CLOGICALV(A,I) -#endif /* LOGICAL_STRICT */ -#endif /* CONVEXFortran || All Others */ -#endif /* IBMR2Fortran vmsFortran DECFortran AbsoftUNIXFortran */ -#endif /* CRAYFortran */ -#endif /* apolloFortran */ - -/* 970514 - In addition to CRAY, there may be other machines - for which LOGICAL_STRICT makes no sense. */ -#if defined(LOGICAL_STRICT) && !defined(CRAYFortran) -/* Force C2FLOGICAL to generate only the values for either .TRUE. or .FALSE. - SX/PowerStationFortran only have 0 and 1 defined. - Elsewhere, only needed if you want to do: - logical lvariable - if (lvariable .eq. .true.) then ! (1) - instead of - if (lvariable .eqv. .true.) then ! (2) - - (1) may not even be FORTRAN/77 and that Apollo's f77 and IBM's xlf - refuse to compile (1), so you are probably well advised to stay away from - (1) and from LOGICAL_STRICT. - - You pay a (slight) performance penalty for using LOGICAL_STRICT. */ -#undef C2FLOGICAL -#ifdef hpuxFortran800 -#define C2FLOGICAL(L) ((L)?0x01000000:0) -#else -#if defined(apolloFortran) || defined(vmsFortran) || defined(DECFortran) -#define C2FLOGICAL(L) ((L)?-1:0) /* These machines use -1/0 for .true./.false.*/ -#else -#define C2FLOGICAL(L) ((L)? 1:0) /* All others use +1/0 for .true./.false.*/ -#endif -#endif -#endif /* LOGICAL_STRICT */ - -/* Convert a vector of C strings into FORTRAN strings. */ -#ifndef __CF__KnR -static char *c2fstrv(char* cstr, char *fstr, int elem_len, int sizeofcstr) -#else -static char *c2fstrv( cstr, fstr, elem_len, sizeofcstr) - char* cstr; char *fstr; int elem_len; int sizeofcstr; -#endif -{ int i,j; -/* elem_len includes \0 for C strings. Fortran strings don't have term. \0. - Useful size of string must be the same in both languages. */ -for (i=0; i<sizeofcstr/elem_len; i++) { - for (j=1; j<elem_len && *cstr; j++) *fstr++ = *cstr++; - cstr += 1+elem_len-j; - for (; j<elem_len; j++) *fstr++ = ' '; -} /* 95109 - Seems to be returning the original fstr. */ -return fstr-sizeofcstr+sizeofcstr/elem_len; } - -/* Convert a vector of FORTRAN strings into C strings. */ -#ifndef __CF__KnR -static char *f2cstrv(char *fstr, char* cstr, int elem_len, int sizeofcstr) -#else -static char *f2cstrv( fstr, cstr, elem_len, sizeofcstr) - char *fstr; char* cstr; int elem_len; int sizeofcstr; -#endif -{ int i,j; -/* elem_len includes \0 for C strings. Fortran strings don't have term. \0. - Useful size of string must be the same in both languages. */ -cstr += sizeofcstr; -fstr += sizeofcstr - sizeofcstr/elem_len; -for (i=0; i<sizeofcstr/elem_len; i++) { - *--cstr = '\0'; - for (j=1; j<elem_len; j++) *--cstr = *--fstr; -} return cstr; } - -/* kill the trailing char t's in string s. */ -#ifndef __CF__KnR -static char *kill_trailing(char *s, char t) -#else -static char *kill_trailing( s, t) char *s; char t; -#endif -{char *e; -e = s + strlen(s); -if (e>s) { /* Need this to handle NULL string.*/ - while (e>s && *--e==t); /* Don't follow t's past beginning. */ - e[*e==t?0:1] = '\0'; /* Handle s[0]=t correctly. */ -} return s; } - -/* kill_trailingn(s,t,e) will kill the trailing t's in string s. e normally -points to the terminating '\0' of s, but may actually point to anywhere in s. -s's new '\0' will be placed at e or earlier in order to remove any trailing t's. -If e<s string s is left unchanged. */ -#ifndef __CF__KnR -static char *kill_trailingn(char *s, char t, char *e) -#else -static char *kill_trailingn( s, t, e) char *s; char t; char *e; -#endif -{ -if (e==s) *e = '\0'; /* Kill the string makes sense here.*/ -else if (e>s) { /* Watch out for neg. length string.*/ - while (e>s && *--e==t); /* Don't follow t's past beginning. */ - e[*e==t?0:1] = '\0'; /* Handle s[0]=t correctly. */ -} return s; } - -/* Note the following assumes that any element which has t's to be chopped off, -does indeed fill the entire element. */ -#ifndef __CF__KnR -static char *vkill_trailing(char* cstr, int elem_len, int sizeofcstr, char t) -#else -static char *vkill_trailing( cstr, elem_len, sizeofcstr, t) - char* cstr; int elem_len; int sizeofcstr; char t; -#endif -{ int i; -for (i=0; i<sizeofcstr/elem_len; i++) /* elem_len includes \0 for C strings. */ - kill_trailingn(cstr+elem_len*i,t,cstr+elem_len*(i+1)-1); -return cstr; } - -#ifdef vmsFortran -typedef struct dsc$descriptor_s fstring; -#define DSC$DESCRIPTOR_A(DIMCT) \ -struct { \ - unsigned short dsc$w_length; unsigned char dsc$b_dtype; \ - unsigned char dsc$b_class; char *dsc$a_pointer; \ - char dsc$b_scale; unsigned char dsc$b_digits; \ - struct { \ - unsigned : 3; unsigned dsc$v_fl_binscale : 1; \ - unsigned dsc$v_fl_redim : 1; unsigned dsc$v_fl_column : 1; \ - unsigned dsc$v_fl_coeff : 1; unsigned dsc$v_fl_bounds : 1; \ - } dsc$b_aflags; \ - unsigned char dsc$b_dimct; unsigned long dsc$l_arsize; \ - char *dsc$a_a0; long dsc$l_m [DIMCT]; \ - struct { \ - long dsc$l_l; long dsc$l_u; \ - } dsc$bounds [DIMCT]; \ -} - -typedef DSC$DESCRIPTOR_A(1) fstringvector; -/*typedef DSC$DESCRIPTOR_A(2) fstringarrarr; - typedef DSC$DESCRIPTOR_A(3) fstringarrarrarr;*/ -#define initfstr(F,C,ELEMNO,ELEMLEN) \ -( (F).dsc$l_arsize= ( (F).dsc$w_length =(ELEMLEN) ) \ - *( (F).dsc$l_m[0]=(F).dsc$bounds[0].dsc$l_u=(ELEMNO) ), \ - (F).dsc$a_a0 = ( (F).dsc$a_pointer=(C) ) - (F).dsc$w_length ,(F)) - -#endif /* PDW: 2/10/98 -- Let VMS see NUM_ELEMS definitions */ -#define _NUM_ELEMS -1 -#define _NUM_ELEM_ARG -2 -#define NUM_ELEMS(A) A,_NUM_ELEMS -#define NUM_ELEM_ARG(B) *_2(A,B),_NUM_ELEM_ARG -#define TERM_CHARS(A,B) A,B -#ifndef __CF__KnR -static int num_elem(char *strv, unsigned elem_len, int term_char, int num_term) -#else -static int num_elem( strv, elem_len, term_char, num_term) - char *strv; unsigned elem_len; int term_char; int num_term; -#endif -/* elem_len is the number of characters in each element of strv, the FORTRAN -vector of strings. The last element of the vector must begin with at least -num_term term_char characters, so that this routine can determine how -many elements are in the vector. */ -{ -unsigned num,i; -if (num_term == _NUM_ELEMS || num_term == _NUM_ELEM_ARG) - return term_char; -if (num_term <=0) num_term = (int)elem_len; -for (num=0; ; num++) { - for (i=0; i<(unsigned)num_term && *strv==term_char; i++,strv++); - if (i==(unsigned)num_term) break; - else strv += elem_len-i; -} -return (int)num; -} - -/*-------------------------------------------------------------------------*/ - -/* UTILITIES FOR C TO USE STRINGS IN FORTRAN COMMON BLOCKS */ - -/* C string TO Fortran Common Block STRing. */ -/* DIM is the number of DIMensions of the array in terms of strings, not - characters. e.g. char a[12] has DIM = 0, char a[12][4] has DIM = 1, etc. */ -#define C2FCBSTR(CSTR,FSTR,DIM) \ - c2fstrv((char *)CSTR, (char *)FSTR, sizeof(FSTR)/cfelementsof(FSTR,DIM)+1, \ - sizeof(FSTR)+cfelementsof(FSTR,DIM)) - -/* Fortran Common Block string TO C STRing. */ -#define FCB2CSTR(FSTR,CSTR,DIM) \ - vkill_trailing(f2cstrv((char *)FSTR, (char *)CSTR, \ - sizeof(FSTR)/cfelementsof(FSTR,DIM)+1, \ - sizeof(FSTR)+cfelementsof(FSTR,DIM)), \ - sizeof(FSTR)/cfelementsof(FSTR,DIM)+1, \ - sizeof(FSTR)+cfelementsof(FSTR,DIM), ' ') - -#define cfDEREFERENCE0 -#define cfDEREFERENCE1 * -#define cfDEREFERENCE2 ** -#define cfDEREFERENCE3 *** -#define cfDEREFERENCE4 **** -#define cfDEREFERENCE5 ***** -#define cfelementsof(A,D) (sizeof(A)/sizeof(_(cfDEREFERENCE,D)(A))) - -/*-------------------------------------------------------------------------*/ - -/* UTILITIES FOR C TO CALL FORTRAN SUBROUTINES */ - -/* Define lookup tables for how to handle the various types of variables. */ - -#ifdef OLD_VAXC /* Prevent %CC-I-PARAMNOTUSED. */ -#pragma nostandard -#endif - -#define ZTRINGV_NUM(I) I -#define ZTRINGV_ARGFP(I) (*(_2(A,I))) /* Undocumented. For PINT, etc. */ -#define ZTRINGV_ARGF(I) _2(A,I) -#ifdef CFSUBASFUN -#define ZTRINGV_ARGS(I) ZTRINGV_ARGF(I) -#else -#define ZTRINGV_ARGS(I) _2(B,I) -#endif - -#define PBYTE_cfVP(A,B) PINT_cfVP(A,B) -#define PDOUBLE_cfVP(A,B) -#define PFLOAT_cfVP(A,B) -#ifdef ZTRINGV_ARGS_allows_Pvariables -/* This allows Pvariables for ARGS. ARGF machinery is above ARGFP. - * B is not needed because the variable may be changed by the Fortran routine, - * but because B is the only way to access an arbitrary macro argument. */ -#define PINT_cfVP(A,B) int B = (int)A; /* For ZSTRINGV_ARGS */ -#else -#define PINT_cfVP(A,B) -#endif -#define PLOGICAL_cfVP(A,B) int *B; /* Returning LOGICAL in FUNn and SUBn */ -#define PLONG_cfVP(A,B) PINT_cfVP(A,B) -#define PSHORT_cfVP(A,B) PINT_cfVP(A,B) - -#define VCF_INT_S(T,A,B) _(T,VVVVVVV_cfTYPE) B = A; -#define VCF_INT_F(T,A,B) _(T,_cfVCF)(A,B) -/* _cfVCF table is directly mapped to _cfCCC table. */ -#define BYTE_cfVCF(A,B) -#define DOUBLE_cfVCF(A,B) -#if !defined(__CF__KnR) -#define FLOAT_cfVCF(A,B) -#else -#define FLOAT_cfVCF(A,B) FORTRAN_REAL B = A; -#endif -#define INT_cfVCF(A,B) -#define LOGICAL_cfVCF(A,B) -#define LONG_cfVCF(A,B) -#define SHORT_cfVCF(A,B) - -#define VCF(TN,I) _Icf4(4,V,TN,_(A,I),_(B,I),F) -#define VVCF(TN,AI,BI) _Icf4(4,V,TN,AI,BI,S) -#define INT_cfV(T,A,B,F) _(VCF_INT_,F)(T,A,B) -#define INTV_cfV(T,A,B,F) -#define INTVV_cfV(T,A,B,F) -#define INTVVV_cfV(T,A,B,F) -#define INTVVVV_cfV(T,A,B,F) -#define INTVVVVV_cfV(T,A,B,F) -#define INTVVVVVV_cfV(T,A,B,F) -#define INTVVVVVVV_cfV(T,A,B,F) -#define PINT_cfV( T,A,B,F) _(T,_cfVP)(A,B) -#define PVOID_cfV( T,A,B,F) -#if defined(apolloFortran) || defined(hpuxFortran800) || defined(AbsoftUNIXFortran) -#define ROUTINE_cfV(T,A,B,F) void (*B)(CF_NULL_PROTO) = (void (*)(CF_NULL_PROTO))A; -#else -#define ROUTINE_cfV(T,A,B,F) -#endif -#define SIMPLE_cfV(T,A,B,F) -#ifdef vmsFortran -#define STRING_cfV(T,A,B,F) static struct {fstring f; unsigned clen;} B = \ - {{0,DSC$K_DTYPE_T,DSC$K_CLASS_S,NULL},0}; -#define PSTRING_cfV(T,A,B,F) static fstring B={0,DSC$K_DTYPE_T,DSC$K_CLASS_S,NULL}; -#define STRINGV_cfV(T,A,B,F) static fstringvector B = \ - {sizeof(A),DSC$K_DTYPE_T,DSC$K_CLASS_A,NULL,0,0,{0,0,1,1,1},1,0,NULL,0,{1,0}}; -#define PSTRINGV_cfV(T,A,B,F) static fstringvector B = \ - {0,DSC$K_DTYPE_T,DSC$K_CLASS_A,NULL,0,0,{0,0,1,1,1},1,0,NULL,0,{1,0}}; -#else -#define STRING_cfV(T,A,B,F) struct {unsigned int clen, flen;} B; -#define STRINGV_cfV(T,A,B,F) struct {char *s, *fs; unsigned flen;} B; -#define PSTRING_cfV(T,A,B,F) int B; -#define PSTRINGV_cfV(T,A,B,F) struct{char *fs; unsigned int sizeofA,flen;}B; -#endif -#define ZTRINGV_cfV(T,A,B,F) STRINGV_cfV(T,A,B,F) -#define PZTRINGV_cfV(T,A,B,F) PSTRINGV_cfV(T,A,B,F) - -/* Note that the actions of the A table were performed inside the AA table. - VAX Ultrix vcc, and HP-UX cc, didn't evaluate arguments to functions left to - right, so we had to split the original table into the current robust two. */ -#define ACF(NAME,TN,AI,I) _(TN,_cfSTR)(4,A,NAME,I,AI,_(B,I),0) -#define DEFAULT_cfA(M,I,A,B) -#define LOGICAL_cfA(M,I,A,B) B=C2FLOGICAL(B); -#define PLOGICAL_cfA(M,I,A,B) A=C2FLOGICAL(A); -#define STRING_cfA(M,I,A,B) STRING_cfC(M,I,A,B,sizeof(A)) -#define PSTRING_cfA(M,I,A,B) PSTRING_cfC(M,I,A,B,sizeof(A)) -#ifdef vmsFortran -#define AATRINGV_cfA( A,B, sA,filA,silA) \ - initfstr(B,(char *)malloc((sA)-(filA)),(filA),(silA)-1), \ - c2fstrv(A,B.dsc$a_pointer,(silA),(sA)); -#define APATRINGV_cfA( A,B, sA,filA,silA) \ - initfstr(B,A,(filA),(silA)-1),c2fstrv(A,A,(silA),(sA)); -#else -#define AATRINGV_cfA( A,B, sA,filA,silA) \ - (B.s=(char *)malloc((sA)-(filA)),B.fs=c2fstrv(A,B.s,(B.flen=(silA)-1)+1,(sA))); -#define APATRINGV_cfA( A,B, sA,filA,silA) \ - B.fs=c2fstrv(A,A,(B.flen=(silA)-1)+1,B.sizeofA=(sA)); -#endif -#define STRINGV_cfA(M,I,A,B) \ - AATRINGV_cfA((char *)A,B,sizeof(A),firstindexlength(A),secondindexlength(A)) -#define PSTRINGV_cfA(M,I,A,B) \ - APATRINGV_cfA((char *)A,B,sizeof(A),firstindexlength(A),secondindexlength(A)) -#define ZTRINGV_cfA(M,I,A,B) AATRINGV_cfA( (char *)A,B, \ - (_3(M,_ELEMS_,I))*(( _3(M,_ELEMLEN_,I))+1), \ - (_3(M,_ELEMS_,I)),(_3(M,_ELEMLEN_,I))+1) -#define PZTRINGV_cfA(M,I,A,B) APATRINGV_cfA( (char *)A,B, \ - (_3(M,_ELEMS_,I))*(( _3(M,_ELEMLEN_,I))+1), \ - (_3(M,_ELEMS_,I)),(_3(M,_ELEMLEN_,I))+1) - -#define PBYTE_cfAAP(A,B) &A -#define PDOUBLE_cfAAP(A,B) &A -#define PFLOAT_cfAAP(A,B) FLOATVVVVVVV_cfPP &A -#define PINT_cfAAP(A,B) &A -#define PLOGICAL_cfAAP(A,B) B= &A /* B used to keep a common W table. */ -#define PLONG_cfAAP(A,B) &A -#define PSHORT_cfAAP(A,B) &A - -#define AACF(TN,AI,I,C) _SEP_(TN,C,COMMA) _Icf(3,AA,TN,AI,_(B,I)) -#define INT_cfAA(T,A,B) &B -#define INTV_cfAA(T,A,B) _(T,VVVVVV_cfPP) A -#define INTVV_cfAA(T,A,B) _(T,VVVVV_cfPP) A[0] -#define INTVVV_cfAA(T,A,B) _(T,VVVV_cfPP) A[0][0] -#define INTVVVV_cfAA(T,A,B) _(T,VVV_cfPP) A[0][0][0] -#define INTVVVVV_cfAA(T,A,B) _(T,VV_cfPP) A[0][0][0][0] -#define INTVVVVVV_cfAA(T,A,B) _(T,V_cfPP) A[0][0][0][0][0] -#define INTVVVVVVV_cfAA(T,A,B) _(T,_cfPP) A[0][0][0][0][0][0] -#define PINT_cfAA(T,A,B) _(T,_cfAAP)(A,B) -#define PVOID_cfAA(T,A,B) (void *) A -#if defined(apolloFortran) || defined(hpuxFortran800) || defined(AbsoftUNIXFortran) -#define ROUTINE_cfAA(T,A,B) &B -#else -#define ROUTINE_cfAA(T,A,B) (void(*)(CF_NULL_PROTO))A -#endif -#define STRING_cfAA(T,A,B) STRING_cfCC(T,A,B) -#define PSTRING_cfAA(T,A,B) PSTRING_cfCC(T,A,B) -#ifdef vmsFortran -#define STRINGV_cfAA(T,A,B) &B -#else -#ifdef CRAYFortran -#define STRINGV_cfAA(T,A,B) _cptofcd(B.fs,B.flen) -#else -#define STRINGV_cfAA(T,A,B) B.fs -#endif -#endif -#define PSTRINGV_cfAA(T,A,B) STRINGV_cfAA(T,A,B) -#define ZTRINGV_cfAA(T,A,B) STRINGV_cfAA(T,A,B) -#define PZTRINGV_cfAA(T,A,B) STRINGV_cfAA(T,A,B) - -#if defined(vmsFortran) || defined(CRAYFortran) -#define JCF(TN,I) -#define KCF(TN,I) -#else -#define JCF(TN,I) _(TN,_cfSTR)(1,J,_(B,I), 0,0,0,0) -#if defined(AbsoftUNIXFortran) -#define DEFAULT_cfJ(B) ,0 -#else -#define DEFAULT_cfJ(B) -#endif -#define LOGICAL_cfJ(B) DEFAULT_cfJ(B) -#define PLOGICAL_cfJ(B) DEFAULT_cfJ(B) -#define STRING_cfJ(B) ,B.flen -#define PSTRING_cfJ(B) ,B -#define STRINGV_cfJ(B) STRING_cfJ(B) -#define PSTRINGV_cfJ(B) STRING_cfJ(B) -#define ZTRINGV_cfJ(B) STRING_cfJ(B) -#define PZTRINGV_cfJ(B) STRING_cfJ(B) - -/* KCF is identical to DCF, except that KCF ZTRING is not empty. */ -#define KCF(TN,I) _(TN,_cfSTR)(1,KK,_(B,I), 0,0,0,0) -#if defined(AbsoftUNIXFortran) -#define DEFAULT_cfKK(B) , unsigned B -#else -#define DEFAULT_cfKK(B) -#endif -#define LOGICAL_cfKK(B) DEFAULT_cfKK(B) -#define PLOGICAL_cfKK(B) DEFAULT_cfKK(B) -#define STRING_cfKK(B) , unsigned B -#define PSTRING_cfKK(B) STRING_cfKK(B) -#define STRINGV_cfKK(B) STRING_cfKK(B) -#define PSTRINGV_cfKK(B) STRING_cfKK(B) -#define ZTRINGV_cfKK(B) STRING_cfKK(B) -#define PZTRINGV_cfKK(B) STRING_cfKK(B) -#endif - -#define WCF(TN,AN,I) _(TN,_cfSTR)(2,W,AN,_(B,I), 0,0,0) -#define DEFAULT_cfW(A,B) -#define LOGICAL_cfW(A,B) -#define PLOGICAL_cfW(A,B) *B=F2CLOGICAL(*B); -#define STRING_cfW(A,B) (A[B.clen]!='\0'?A[B.clen]='\0':0); /* A?="constnt"*/ -#define PSTRING_cfW(A,B) kill_trailing(A,' '); -#ifdef vmsFortran -#define STRINGV_cfW(A,B) free(B.dsc$a_pointer); -#define PSTRINGV_cfW(A,B) \ - vkill_trailing(f2cstrv((char*)A, (char*)A, \ - B.dsc$w_length+1, B.dsc$l_arsize+B.dsc$l_m[0]), \ - B.dsc$w_length+1, B.dsc$l_arsize+B.dsc$l_m[0], ' '); -#else -#define STRINGV_cfW(A,B) free(B.s); -#define PSTRINGV_cfW(A,B) vkill_trailing( \ - f2cstrv((char*)A,(char*)A,B.flen+1,B.sizeofA), B.flen+1,B.sizeofA,' '); -#endif -#define ZTRINGV_cfW(A,B) STRINGV_cfW(A,B) -#define PZTRINGV_cfW(A,B) PSTRINGV_cfW(A,B) - -#define NCF(TN,I,C) _SEP_(TN,C,COMMA) _Icf(2,N,TN,_(A,I),0) -#define NNCF(TN,I,C) UUCF(TN,I,C) -#define NNNCF(TN,I,C) _SEP_(TN,C,COLON) _Icf(2,N,TN,_(A,I),0) -#define INT_cfN(T,A) _(T,VVVVVVV_cfTYPE) * A -#define INTV_cfN(T,A) _(T,VVVVVV_cfTYPE) * A -#define INTVV_cfN(T,A) _(T,VVVVV_cfTYPE) * A -#define INTVVV_cfN(T,A) _(T,VVVV_cfTYPE) * A -#define INTVVVV_cfN(T,A) _(T,VVV_cfTYPE) * A -#define INTVVVVV_cfN(T,A) _(T,VV_cfTYPE) * A -#define INTVVVVVV_cfN(T,A) _(T,V_cfTYPE) * A -#define INTVVVVVVV_cfN(T,A) _(T,_cfTYPE) * A -#define PINT_cfN(T,A) _(T,_cfTYPE) * A -#define PVOID_cfN(T,A) void * A -#if defined(apolloFortran) || defined(hpuxFortran800) || defined(AbsoftUNIXFortran) -#define ROUTINE_cfN(T,A) void (**A)(CF_NULL_PROTO) -#else -#define ROUTINE_cfN(T,A) void ( *A)(CF_NULL_PROTO) -#endif -#ifdef vmsFortran -#define STRING_cfN(T,A) fstring * A -#define STRINGV_cfN(T,A) fstringvector * A -#else -#ifdef CRAYFortran -#define STRING_cfN(T,A) _fcd A -#define STRINGV_cfN(T,A) _fcd A -#else -#define STRING_cfN(T,A) char * A -#define STRINGV_cfN(T,A) char * A -#endif -#endif -#define PSTRING_cfN(T,A) STRING_cfN(T,A) /* CRAY insists on arg.'s here. */ -#define PNSTRING_cfN(T,A) STRING_cfN(T,A) /* CRAY insists on arg.'s here. */ -#define PPSTRING_cfN(T,A) STRING_cfN(T,A) /* CRAY insists on arg.'s here. */ -#define PSTRINGV_cfN(T,A) STRINGV_cfN(T,A) -#define ZTRINGV_cfN(T,A) STRINGV_cfN(T,A) -#define PZTRINGV_cfN(T,A) PSTRINGV_cfN(T,A) - - -/* Apollo 6.7, CRAY, old Sun, VAX/Ultrix vcc/cc and new ultrix - can't hack more than 31 arg's. - e.g. ultrix >= 4.3 gives message: - zow35> cc -c -DDECFortran cfortest.c - cfe: Fatal: Out of memory: cfortest.c - zow35> - Old __hpux had the problem, but new 'HP-UX A.09.03 A 9000/735' is fine - if using -Aa, otherwise we have a problem. - */ -#ifndef MAX_PREPRO_ARGS -#if !defined(__GNUC__) && (defined(VAXUltrix) || defined(__CF__APOLLO67) || (defined(sun)&&!defined(__sun)) || defined(_CRAY) || defined(__ultrix__) || (defined(__hpux)&&defined(__CF__KnR))) -#define MAX_PREPRO_ARGS 31 -#else -#define MAX_PREPRO_ARGS 99 -#endif -#endif - -#if defined(AbsoftUNIXFortran) -/* In addition to explicit Absoft stuff, only Absoft requires: - - DEFAULT coming from _cfSTR. - DEFAULT could have been called e.g. INT, but keep it for clarity. - - M term in CFARGT14 and CFARGT14FS. - */ -#define ABSOFT_cf1(T0) _(T0,_cfSTR)(0,ABSOFT1,0,0,0,0,0) -#define ABSOFT_cf2(T0) _(T0,_cfSTR)(0,ABSOFT2,0,0,0,0,0) -#define ABSOFT_cf3(T0) _(T0,_cfSTR)(0,ABSOFT3,0,0,0,0,0) -#define DEFAULT_cfABSOFT1 -#define LOGICAL_cfABSOFT1 -#define STRING_cfABSOFT1 ,MAX_LEN_FORTRAN_FUNCTION_STRING -#define DEFAULT_cfABSOFT2 -#define LOGICAL_cfABSOFT2 -#define STRING_cfABSOFT2 ,unsigned D0 -#define DEFAULT_cfABSOFT3 -#define LOGICAL_cfABSOFT3 -#define STRING_cfABSOFT3 ,D0 -#else -#define ABSOFT_cf1(T0) -#define ABSOFT_cf2(T0) -#define ABSOFT_cf3(T0) -#endif - -/* _Z introduced to cicumvent IBM and HP silly preprocessor warning. - e.g. "Macro CFARGT14 invoked with a null argument." - */ -#define _Z - -#define CFARGT14S(S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - S(T1,1) S(T2,2) S(T3,3) S(T4,4) S(T5,5) S(T6,6) S(T7,7) \ - S(T8,8) S(T9,9) S(TA,A) S(TB,B) S(TC,C) S(TD,D) S(TE,E) -#define CFARGT14FS(F,S,M,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - F(T1,1,0) F(T2,2,1) F(T3,3,1) F(T4,4,1) F(T5,5,1) F(T6,6,1) F(T7,7,1) \ - F(T8,8,1) F(T9,9,1) F(TA,A,1) F(TB,B,1) F(TC,C,1) F(TD,D,1) F(TE,E,1) \ - M CFARGT14S(S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) - -#if !(defined(PowerStationFortran)||defined(hpuxFortran800)) -/* Old CFARGT14 -> CFARGT14FS as seen below, for Absoft cross-compile yields: - SunOS> cc -c -Xa -DAbsoftUNIXFortran c.c - "c.c", line 406: warning: argument mismatch - Haven't checked if this is ANSI C or a SunOS bug. SunOS -Xs works ok. - Behavior is most clearly seen in example: - #define A 1 , 2 - #define C(X,Y,Z) x=X. y=Y. z=Z. - #define D(X,Y,Z) C(X,Y,Z) - D(x,A,z) - Output from preprocessor is: x = x . y = 1 . z = 2 . - #define CFARGT14(F,S,M,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - CFARGT14FS(F,S,M,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) -*/ -#define CFARGT14(F,S,M,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - F(T1,1,0) F(T2,2,1) F(T3,3,1) F(T4,4,1) F(T5,5,1) F(T6,6,1) F(T7,7,1) \ - F(T8,8,1) F(T9,9,1) F(TA,A,1) F(TB,B,1) F(TC,C,1) F(TD,D,1) F(TE,E,1) \ - M CFARGT14S(S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) -/* F changed to Z for arg 15. Watch out if ever extend to S or Z arguments. */ -#define CFARGT20(Z,S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) \ - Z(T1,1,0) Z(T2,2,1) Z(T3,3,1) Z(T4,4,1) Z(T5,5,1) Z(T6,6,1) Z(T7,7,1) \ - Z(T8,8,1) Z(T9,9,1) Z(TA,A,1) Z(TB,B,1) Z(TC,C,1) Z(TD,D,1) Z(TE,E,1) \ - Z(TF,F,1) Z(TG,G,1) Z(TH,H,1) Z(TI,I,1) Z(TJ,J,1) Z(TK,K,1) \ - S(T1,1) S(T2,2) S(T3,3) S(T4,4) S(T5,5) S(T6,6) S(T7,7) \ - S(T8,8) S(T9,9) S(TA,A) S(TB,B) S(TC,C) S(TD,D) S(TE,E) \ - S(TF,F) S(TG,G) S(TH,H) S(TI,I) S(TJ,J) S(TK,K) -#define CFARGTA14(F,S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE) \ - F(T1,A1,1,0) F(T2,A2,2,1) F(T3,A3,3,1) F(T4,A4,4,1) F(T5,A5,5,1) F(T6,A6,6,1) \ - F(T7,A7,7,1) F(T8,A8,8,1) F(T9,A9,9,1) F(TA,AA,A,1) F(TB,AB,B,1) F(TC,AC,C,1) \ - F(TD,AD,D,1) F(TE,AE,E,1) S(T1,1) S(T2,2) S(T3,3) S(T4,4) \ - S(T5,5) S(T6,6) S(T7,7) S(T8,8) S(T9,9) S(TA,A) \ - S(TB,B) S(TC,C) S(TD,D) S(TE,E) -#if MAX_PREPRO_ARGS>31 -/* F changed to Z for arg 15. Watch out if ever extend to S or Z arguments. */ -#define CFARGTA20(Z,S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,AK) \ - Z(T1,A1,1,0) Z(T2,A2,2,1) Z(T3,A3,3,1) Z(T4,A4,4,1) Z(T5,A5,5,1) Z(T6,A6,6,1) \ - Z(T7,A7,7,1) Z(T8,A8,8,1) Z(T9,A9,9,1) Z(TA,AA,A,1) Z(TB,AB,B,1) Z(TC,AC,C,1) \ - Z(TD,AD,D,1) Z(TE,AE,E,1) Z(TF,AF,F,1) Z(TG,AG,G,1) Z(TH,AH,H,1) Z(TI,AI,I,1) \ - Z(TJ,AJ,J,1) Z(TK,AK,K,1) S(T1,1) S(T2,2) S(T3,3) S(T4,4) \ - S(T5,5) S(T6,6) S(T7,7) S(T8,8) S(T9,9) S(TA,A) \ - S(TB,B) S(TC,C) S(TD,D) S(TE,E) S(TF,F) S(TG,G) \ - S(TH,H) S(TI,I) S(TJ,J) S(TK,K) -#endif -#else -#define CFARGT14(F,S,M,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - F(T1,1,0) S(T1,1) F(T2,2,1) S(T2,2) F(T3,3,1) S(T3,3) F(T4,4,1) S(T4,4) \ - F(T5,5,1) S(T5,5) F(T6,6,1) S(T6,6) F(T7,7,1) S(T7,7) F(T8,8,1) S(T8,8) \ - F(T9,9,1) S(T9,9) F(TA,A,1) S(TA,A) F(TB,B,1) S(TB,B) F(TC,C,1) S(TC,C) \ - F(TD,D,1) S(TD,D) F(TE,E,1) S(TE,E) -/* F changed to Z for arg 15. Watch out if ever extend to S or Z arguments. */ -#define CFARGT20(Z,S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) \ - Z(T1,1,0) S(T1,1) Z(T2,2,1) S(T2,2) Z(T3,3,1) S(T3,3) Z(T4,4,1) S(T4,4) \ - Z(T5,5,1) S(T5,5) Z(T6,6,1) S(T6,6) Z(T7,7,1) S(T7,7) Z(T8,8,1) S(T8,8) \ - Z(T9,9,1) S(T9,9) Z(TA,A,1) S(TA,A) Z(TB,B,1) S(TB,B) Z(TC,C,1) S(TC,C) \ - Z(TD,D,1) S(TD,D) Z(TE,E,1) S(TE,E) Z(TF,F,1) S(TF,F) Z(TG,G,1) S(TG,G) \ - Z(TH,H,1) S(TH,H) Z(TI,I,1) S(TI,I) Z(TJ,J,1) S(TJ,J) Z(TK,K,1) S(TK,K) -#define CFARGTA14(F,S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE) \ - F(T1,A1,1,0) S(T1,1) F(T2,A2,2,1) S(T2,2) F(T3,A3,3,1) S(T3,3) \ - F(T4,A4,4,1) S(T4,4) F(T5,A5,5,1) S(T5,5) F(T6,A6,6,1) S(T6,6) \ - F(T7,A7,7,1) S(T7,7) F(T8,A8,8,1) S(T8,8) F(T9,A9,9,1) S(T9,9) \ - F(TA,AA,A,1) S(TA,A) F(TB,AB,B,1) S(TB,B) F(TC,AC,C,1) S(TC,C) \ - F(TD,AD,D,1) S(TD,D) F(TE,AE,E,1) S(TE,E) -#if MAX_PREPRO_ARGS>31 -/* F changed to Z for arg 15. Watch out if ever extend to S or Z arguments. */ -#define CFARGTA20(Z,S,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,AK) \ - Z(T1,A1,1,0) S(T1,1) Z(T2,A2,2,1) S(T2,2) Z(T3,A3,3,1) S(T3,3) \ - Z(T4,A4,4,1) S(T4,4) Z(T5,A5,5,1) S(T5,5) Z(T6,A6,6,1) S(T6,6) \ - Z(T7,A7,7,1) S(T7,7) Z(T8,A8,8,1) S(T8,8) Z(T9,A9,9,1) S(T9,9) \ - Z(TA,AA,A,1) S(TA,A) Z(TB,AB,B,1) S(TB,B) Z(TC,AC,C,1) S(TC,C) \ - Z(TD,AD,D,1) S(TD,D) Z(TE,AE,E,1) S(TE,E) Z(TF,AF,F,1) S(TF,F) \ - Z(TG,AG,G,1) S(TG,G) Z(TH,AH,H,1) S(TH,H) Z(TI,AI,I,1) S(TI,I) \ - Z(TJ,AJ,J,1) S(TJ,J) Z(TK,AK,K,1) S(TK,K) -#endif -#endif - - -#define PROTOCCALLSFSUB1( UN,LN,T1) \ - PROTOCCALLSFSUB14(UN,LN,T1,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB2( UN,LN,T1,T2) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB3( UN,LN,T1,T2,T3) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB4( UN,LN,T1,T2,T3,T4) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB5( UN,LN,T1,T2,T3,T4,T5) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB6( UN,LN,T1,T2,T3,T4,T5,T6) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB7( UN,LN,T1,T2,T3,T4,T5,T6,T7) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB8( UN,LN,T1,T2,T3,T4,T5,T6,T7,T8) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,CF_0,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB9( UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB11(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB12(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,CF_0,CF_0) -#define PROTOCCALLSFSUB13(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,CF_0) - - -#define PROTOCCALLSFSUB15(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF) \ - PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB16(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG) \ - PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB17(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH) \ - PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,CF_0,CF_0,CF_0) -#define PROTOCCALLSFSUB18(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI) \ - PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,CF_0,CF_0) -#define PROTOCCALLSFSUB19(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ) \ - PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,CF_0) - - -#ifndef FCALLSC_QUALIFIER -#ifdef VISUAL_CPLUSPLUS -#define FCALLSC_QUALIFIER __stdcall -#else -#define FCALLSC_QUALIFIER -#endif -#endif - -#ifdef __cplusplus -#define CFextern extern "C" -#else -#define CFextern extern -#endif - - -#ifdef CFSUBASFUN -#define PROTOCCALLSFSUB0(UN,LN) \ - PROTOCCALLSFFUN0( VOID,UN,LN) -#define PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - PROTOCCALLSFFUN14(VOID,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) -#define PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK)\ - PROTOCCALLSFFUN20(VOID,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) -#else -/* Note: Prevent compiler warnings, null #define PROTOCCALLSFSUB14/20 after - #include-ing cfortran.h if calling the FORTRAN wrapper within the same - source code where the wrapper is created. */ -#define PROTOCCALLSFSUB0(UN,LN) CFextern void FCALLSC_QUALIFIER CFC_(UN,LN)(); -#ifndef __CF__KnR -#define PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - CFextern void FCALLSC_QUALIFIER CFC_(UN,LN)( CFARGT14(NCF,KCF,_Z,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) ); -#define PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK)\ - CFextern void FCALLSC_QUALIFIER CFC_(UN,LN)( CFARGT20(NCF,KCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) ); -#else -#define PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - PROTOCCALLSFSUB0(UN,LN) -#define PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) \ - PROTOCCALLSFSUB0(UN,LN) -#endif -#endif - - -#ifdef OLD_VAXC /* Allow %CC-I-PARAMNOTUSED. */ -#pragma standard -#endif - - -#define CCALLSFSUB1( UN,LN,T1, A1) \ - CCALLSFSUB5 (UN,LN,T1,CF_0,CF_0,CF_0,CF_0,A1,0,0,0,0) -#define CCALLSFSUB2( UN,LN,T1,T2, A1,A2) \ - CCALLSFSUB5 (UN,LN,T1,T2,CF_0,CF_0,CF_0,A1,A2,0,0,0) -#define CCALLSFSUB3( UN,LN,T1,T2,T3, A1,A2,A3) \ - CCALLSFSUB5 (UN,LN,T1,T2,T3,CF_0,CF_0,A1,A2,A3,0,0) -#define CCALLSFSUB4( UN,LN,T1,T2,T3,T4, A1,A2,A3,A4)\ - CCALLSFSUB5 (UN,LN,T1,T2,T3,T4,CF_0,A1,A2,A3,A4,0) -#define CCALLSFSUB5( UN,LN,T1,T2,T3,T4,T5, A1,A2,A3,A4,A5) \ - CCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,CF_0,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,0,0,0,0,0) -#define CCALLSFSUB6( UN,LN,T1,T2,T3,T4,T5,T6, A1,A2,A3,A4,A5,A6) \ - CCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,T6,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,0,0,0,0) -#define CCALLSFSUB7( UN,LN,T1,T2,T3,T4,T5,T6,T7, A1,A2,A3,A4,A5,A6,A7) \ - CCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,T6,T7,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,0,0,0) -#define CCALLSFSUB8( UN,LN,T1,T2,T3,T4,T5,T6,T7,T8, A1,A2,A3,A4,A5,A6,A7,A8) \ - CCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,0,0) -#define CCALLSFSUB9( UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,A1,A2,A3,A4,A5,A6,A7,A8,A9)\ - CCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,0) -#define CCALLSFSUB10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA)\ - CCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,0,0,0,0) -#define CCALLSFSUB11(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB)\ - CCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,0,0,0) -#define CCALLSFSUB12(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC)\ - CCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,0,0) -#define CCALLSFSUB13(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD)\ - CCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,0) - -#ifdef __cplusplus -#define CPPPROTOCLSFSUB0( UN,LN) -#define CPPPROTOCLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) -#define CPPPROTOCLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) -#else -#define CPPPROTOCLSFSUB0(UN,LN) \ - PROTOCCALLSFSUB0(UN,LN) -#define CPPPROTOCLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - PROTOCCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) -#define CPPPROTOCLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) \ - PROTOCCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) -#endif - -#ifdef CFSUBASFUN -#define CCALLSFSUB0(UN,LN) CCALLSFFUN0(UN,LN) -#define CCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE)\ - CCALLSFFUN14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE) -#else -/* do{...}while(FALSE) allows if(a==b) FORT(); else BORT(); */ -#define CCALLSFSUB0( UN,LN) do{CPPPROTOCLSFSUB0(UN,LN) CFC_(UN,LN)();}while(FALSE) -#define CCALLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE)\ -do{VVCF(T1,A1,B1) VVCF(T2,A2,B2) VVCF(T3,A3,B3) VVCF(T4,A4,B4) VVCF(T5,A5,B5) \ - VVCF(T6,A6,B6) VVCF(T7,A7,B7) VVCF(T8,A8,B8) VVCF(T9,A9,B9) VVCF(TA,AA,BA) \ - VVCF(TB,AB,BB) VVCF(TC,AC,BC) VVCF(TD,AD,BD) VVCF(TE,AE,BE) \ - CPPPROTOCLSFSUB14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - ACF(LN,T1,A1,1) ACF(LN,T2,A2,2) ACF(LN,T3,A3,3) \ - ACF(LN,T4,A4,4) ACF(LN,T5,A5,5) ACF(LN,T6,A6,6) ACF(LN,T7,A7,7) \ - ACF(LN,T8,A8,8) ACF(LN,T9,A9,9) ACF(LN,TA,AA,A) ACF(LN,TB,AB,B) \ - ACF(LN,TC,AC,C) ACF(LN,TD,AD,D) ACF(LN,TE,AE,E) \ - CFC_(UN,LN)( CFARGTA14(AACF,JCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE) );\ - WCF(T1,A1,1) WCF(T2,A2,2) WCF(T3,A3,3) WCF(T4,A4,4) WCF(T5,A5,5) \ - WCF(T6,A6,6) WCF(T7,A7,7) WCF(T8,A8,8) WCF(T9,A9,9) WCF(TA,AA,A) \ - WCF(TB,AB,B) WCF(TC,AC,C) WCF(TD,AD,D) WCF(TE,AE,E) }while(FALSE) -#endif - - -#if MAX_PREPRO_ARGS>31 -#define CCALLSFSUB15(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF)\ - CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,CF_0,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,0,0,0,0,0) -#define CCALLSFSUB16(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG)\ - CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,0,0,0,0) -#define CCALLSFSUB17(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH)\ - CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,0,0,0) -#define CCALLSFSUB18(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI)\ - CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,0,0) -#define CCALLSFSUB19(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ)\ - CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,0) - -#ifdef CFSUBASFUN -#define CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH, \ - TI,TJ,TK, A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,AK) \ - CCALLSFFUN20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH, \ - TI,TJ,TK, A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,AK) -#else -#define CCALLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH, \ - TI,TJ,TK, A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,AK) \ -do{VVCF(T1,A1,B1) VVCF(T2,A2,B2) VVCF(T3,A3,B3) VVCF(T4,A4,B4) VVCF(T5,A5,B5) \ - VVCF(T6,A6,B6) VVCF(T7,A7,B7) VVCF(T8,A8,B8) VVCF(T9,A9,B9) VVCF(TA,AA,BA) \ - VVCF(TB,AB,BB) VVCF(TC,AC,BC) VVCF(TD,AD,BD) VVCF(TE,AE,BE) VVCF(TF,AF,BF) \ - VVCF(TG,AG,BG) VVCF(TH,AH,BH) VVCF(TI,AI,BI) VVCF(TJ,AJ,BJ) VVCF(TK,AK,BK) \ - CPPPROTOCLSFSUB20(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK) \ - ACF(LN,T1,A1,1) ACF(LN,T2,A2,2) ACF(LN,T3,A3,3) ACF(LN,T4,A4,4) \ - ACF(LN,T5,A5,5) ACF(LN,T6,A6,6) ACF(LN,T7,A7,7) ACF(LN,T8,A8,8) \ - ACF(LN,T9,A9,9) ACF(LN,TA,AA,A) ACF(LN,TB,AB,B) ACF(LN,TC,AC,C) \ - ACF(LN,TD,AD,D) ACF(LN,TE,AE,E) ACF(LN,TF,AF,F) ACF(LN,TG,AG,G) \ - ACF(LN,TH,AH,H) ACF(LN,TI,AI,I) ACF(LN,TJ,AJ,J) ACF(LN,TK,AK,K) \ - CFC_(UN,LN)( CFARGTA20(AACF,JCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,TF,TG,TH,TI,TJ,TK,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE,AF,AG,AH,AI,AJ,AK) ); \ - WCF(T1,A1,1) WCF(T2,A2,2) WCF(T3,A3,3) WCF(T4,A4,4) WCF(T5,A5,5) WCF(T6,A6,6) \ - WCF(T7,A7,7) WCF(T8,A8,8) WCF(T9,A9,9) WCF(TA,AA,A) WCF(TB,AB,B) WCF(TC,AC,C) \ - WCF(TD,AD,D) WCF(TE,AE,E) WCF(TF,AF,F) WCF(TG,AG,G) WCF(TH,AH,H) WCF(TI,AI,I) \ - WCF(TJ,AJ,J) WCF(TK,AK,K) }while(FALSE) -#endif -#endif /* MAX_PREPRO_ARGS */ - -/*-------------------------------------------------------------------------*/ - -/* UTILITIES FOR C TO CALL FORTRAN FUNCTIONS */ - -/*N.B. PROTOCCALLSFFUNn(..) generates code, whether or not the FORTRAN - function is called. Therefore, especially for creator's of C header files - for large FORTRAN libraries which include many functions, to reduce - compile time and object code size, it may be desirable to create - preprocessor directives to allow users to create code for only those - functions which they use. */ - -/* The following defines the maximum length string that a function can return. - Of course it may be undefine-d and re-define-d before individual - PROTOCCALLSFFUNn(..) as required. It would also be nice to have this derived - from the individual machines' limits. */ -#define MAX_LEN_FORTRAN_FUNCTION_STRING 0x4FE - -/* The following defines a character used by CFORTRAN.H to flag the end of a - string coming out of a FORTRAN routine. */ -#define CFORTRAN_NON_CHAR 0x7F - -#ifdef OLD_VAXC /* Prevent %CC-I-PARAMNOTUSED. */ -#pragma nostandard -#endif - -#define _SEP_(TN,C,COMMA) _(__SEP_,C)(TN,COMMA) -#define __SEP_0(TN,COMMA) -#define __SEP_1(TN,COMMA) _Icf(2,SEP,TN,COMMA,0) -#define INT_cfSEP(T,B) _(A,B) -#define INTV_cfSEP(T,B) INT_cfSEP(T,B) -#define INTVV_cfSEP(T,B) INT_cfSEP(T,B) -#define INTVVV_cfSEP(T,B) INT_cfSEP(T,B) -#define INTVVVV_cfSEP(T,B) INT_cfSEP(T,B) -#define INTVVVVV_cfSEP(T,B) INT_cfSEP(T,B) -#define INTVVVVVV_cfSEP(T,B) INT_cfSEP(T,B) -#define INTVVVVVVV_cfSEP(T,B) INT_cfSEP(T,B) -#define PINT_cfSEP(T,B) INT_cfSEP(T,B) -#define PVOID_cfSEP(T,B) INT_cfSEP(T,B) -#define ROUTINE_cfSEP(T,B) INT_cfSEP(T,B) -#define SIMPLE_cfSEP(T,B) INT_cfSEP(T,B) -#define VOID_cfSEP(T,B) INT_cfSEP(T,B) /* For FORTRAN calls C subr.s.*/ -#define STRING_cfSEP(T,B) INT_cfSEP(T,B) -#define STRINGV_cfSEP(T,B) INT_cfSEP(T,B) -#define PSTRING_cfSEP(T,B) INT_cfSEP(T,B) -#define PSTRINGV_cfSEP(T,B) INT_cfSEP(T,B) -#define PNSTRING_cfSEP(T,B) INT_cfSEP(T,B) -#define PPSTRING_cfSEP(T,B) INT_cfSEP(T,B) -#define ZTRINGV_cfSEP(T,B) INT_cfSEP(T,B) -#define PZTRINGV_cfSEP(T,B) INT_cfSEP(T,B) - -#if defined(SIGNED_BYTE) || !defined(UNSIGNED_BYTE) -#ifdef OLD_VAXC -#define INTEGER_BYTE char /* Old VAXC barfs on 'signed char' */ -#else -#define INTEGER_BYTE signed char /* default */ -#endif -#else -#define INTEGER_BYTE unsigned char -#endif -#define BYTEVVVVVVV_cfTYPE INTEGER_BYTE -#define DOUBLEVVVVVVV_cfTYPE DOUBLE_PRECISION -#define FLOATVVVVVVV_cfTYPE FORTRAN_REAL -#define INTVVVVVVV_cfTYPE int -#define LOGICALVVVVVVV_cfTYPE int -#define LONGVVVVVVV_cfTYPE long -#define SHORTVVVVVVV_cfTYPE short -#define PBYTE_cfTYPE INTEGER_BYTE -#define PDOUBLE_cfTYPE DOUBLE_PRECISION -#define PFLOAT_cfTYPE FORTRAN_REAL -#define PINT_cfTYPE int -#define PLOGICAL_cfTYPE int -#define PLONG_cfTYPE long -#define PSHORT_cfTYPE short - -#define CFARGS0(A,T,V,W,X,Y,Z) _3(T,_cf,A) -#define CFARGS1(A,T,V,W,X,Y,Z) _3(T,_cf,A)(V) -#define CFARGS2(A,T,V,W,X,Y,Z) _3(T,_cf,A)(V,W) -#define CFARGS3(A,T,V,W,X,Y,Z) _3(T,_cf,A)(V,W,X) -#define CFARGS4(A,T,V,W,X,Y,Z) _3(T,_cf,A)(V,W,X,Y) -#define CFARGS5(A,T,V,W,X,Y,Z) _3(T,_cf,A)(V,W,X,Y,Z) - -#define _Icf(N,T,I,X,Y) _(I,_cfINT)(N,T,I,X,Y,0) -#define _Icf4(N,T,I,X,Y,Z) _(I,_cfINT)(N,T,I,X,Y,Z) -#define BYTE_cfINT(N,A,B,X,Y,Z) DOUBLE_cfINT(N,A,B,X,Y,Z) -#define DOUBLE_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INT,B,X,Y,Z,0) -#define FLOAT_cfINT(N,A,B,X,Y,Z) DOUBLE_cfINT(N,A,B,X,Y,Z) -#define INT_cfINT(N,A,B,X,Y,Z) DOUBLE_cfINT(N,A,B,X,Y,Z) -#define LOGICAL_cfINT(N,A,B,X,Y,Z) DOUBLE_cfINT(N,A,B,X,Y,Z) -#define LONG_cfINT(N,A,B,X,Y,Z) DOUBLE_cfINT(N,A,B,X,Y,Z) -#define SHORT_cfINT(N,A,B,X,Y,Z) DOUBLE_cfINT(N,A,B,X,Y,Z) -#define PBYTE_cfINT(N,A,B,X,Y,Z) PDOUBLE_cfINT(N,A,B,X,Y,Z) -#define PDOUBLE_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,PINT,B,X,Y,Z,0) -#define PFLOAT_cfINT(N,A,B,X,Y,Z) PDOUBLE_cfINT(N,A,B,X,Y,Z) -#define PINT_cfINT(N,A,B,X,Y,Z) PDOUBLE_cfINT(N,A,B,X,Y,Z) -#define PLOGICAL_cfINT(N,A,B,X,Y,Z) PDOUBLE_cfINT(N,A,B,X,Y,Z) -#define PLONG_cfINT(N,A,B,X,Y,Z) PDOUBLE_cfINT(N,A,B,X,Y,Z) -#define PSHORT_cfINT(N,A,B,X,Y,Z) PDOUBLE_cfINT(N,A,B,X,Y,Z) -#define BYTEV_cfINT(N,A,B,X,Y,Z) DOUBLEV_cfINT(N,A,B,X,Y,Z) -#define BYTEVV_cfINT(N,A,B,X,Y,Z) DOUBLEVV_cfINT(N,A,B,X,Y,Z) -#define BYTEVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVV_cfINT(N,A,B,X,Y,Z) -#define BYTEVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) -#define BYTEVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) -#define BYTEVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) -#define BYTEVVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) -#define DOUBLEV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTV,B,X,Y,Z,0) -#define DOUBLEVV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTVV,B,X,Y,Z,0) -#define DOUBLEVVV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTVVV,B,X,Y,Z,0) -#define DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTVVVV,B,X,Y,Z,0) -#define DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTVVVVV,B,X,Y,Z,0) -#define DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTVVVVVV,B,X,Y,Z,0) -#define DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,INTVVVVVVV,B,X,Y,Z,0) -#define FLOATV_cfINT(N,A,B,X,Y,Z) DOUBLEV_cfINT(N,A,B,X,Y,Z) -#define FLOATVV_cfINT(N,A,B,X,Y,Z) DOUBLEVV_cfINT(N,A,B,X,Y,Z) -#define FLOATVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVV_cfINT(N,A,B,X,Y,Z) -#define FLOATVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) -#define FLOATVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) -#define FLOATVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) -#define FLOATVVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) -#define INTV_cfINT(N,A,B,X,Y,Z) DOUBLEV_cfINT(N,A,B,X,Y,Z) -#define INTVV_cfINT(N,A,B,X,Y,Z) DOUBLEVV_cfINT(N,A,B,X,Y,Z) -#define INTVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVV_cfINT(N,A,B,X,Y,Z) -#define INTVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) -#define INTVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) -#define INTVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) -#define INTVVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) -#define LOGICALV_cfINT(N,A,B,X,Y,Z) DOUBLEV_cfINT(N,A,B,X,Y,Z) -#define LOGICALVV_cfINT(N,A,B,X,Y,Z) DOUBLEVV_cfINT(N,A,B,X,Y,Z) -#define LOGICALVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVV_cfINT(N,A,B,X,Y,Z) -#define LOGICALVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) -#define LOGICALVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) -#define LOGICALVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) -#define LOGICALVVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) -#define LONGV_cfINT(N,A,B,X,Y,Z) DOUBLEV_cfINT(N,A,B,X,Y,Z) -#define LONGVV_cfINT(N,A,B,X,Y,Z) DOUBLEVV_cfINT(N,A,B,X,Y,Z) -#define LONGVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVV_cfINT(N,A,B,X,Y,Z) -#define LONGVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) -#define LONGVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) -#define LONGVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) -#define LONGVVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) -#define SHORTV_cfINT(N,A,B,X,Y,Z) DOUBLEV_cfINT(N,A,B,X,Y,Z) -#define SHORTVV_cfINT(N,A,B,X,Y,Z) DOUBLEVV_cfINT(N,A,B,X,Y,Z) -#define SHORTVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVV_cfINT(N,A,B,X,Y,Z) -#define SHORTVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVV_cfINT(N,A,B,X,Y,Z) -#define SHORTVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVV_cfINT(N,A,B,X,Y,Z) -#define SHORTVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVV_cfINT(N,A,B,X,Y,Z) -#define SHORTVVVVVVV_cfINT(N,A,B,X,Y,Z) DOUBLEVVVVVVV_cfINT(N,A,B,X,Y,Z) -#define PVOID_cfINT(N,A,B,X,Y,Z) _(CFARGS,N)(A,B,B,X,Y,Z,0) -#define ROUTINE_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -/*CRAY coughs on the first, - i.e. the usual trouble of not being able to - define macros to macros with arguments. - New ultrix is worse, it coughs on all such uses. - */ -/*#define SIMPLE_cfINT PVOID_cfINT*/ -#define SIMPLE_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define VOID_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define STRING_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define STRINGV_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define PSTRING_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define PSTRINGV_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define PNSTRING_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define PPSTRING_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define ZTRINGV_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define PZTRINGV_cfINT(N,A,B,X,Y,Z) PVOID_cfINT(N,A,B,X,Y,Z) -#define CF_0_cfINT(N,A,B,X,Y,Z) - - -#define UCF(TN,I,C) _SEP_(TN,C,COMMA) _Icf(2,U,TN,_(A,I),0) -#define UUCF(TN,I,C) _SEP_(TN,C,COMMA) _SEP_(TN,1,I) -#define UUUCF(TN,I,C) _SEP_(TN,C,COLON) _Icf(2,U,TN,_(A,I),0) -#define INT_cfU(T,A) _(T,VVVVVVV_cfTYPE) A -#define INTV_cfU(T,A) _(T,VVVVVV_cfTYPE) * A -#define INTVV_cfU(T,A) _(T,VVVVV_cfTYPE) * A -#define INTVVV_cfU(T,A) _(T,VVVV_cfTYPE) * A -#define INTVVVV_cfU(T,A) _(T,VVV_cfTYPE) * A -#define INTVVVVV_cfU(T,A) _(T,VV_cfTYPE) * A -#define INTVVVVVV_cfU(T,A) _(T,V_cfTYPE) * A -#define INTVVVVVVV_cfU(T,A) _(T,_cfTYPE) * A -#define PINT_cfU(T,A) _(T,_cfTYPE) * A -#define PVOID_cfU(T,A) void *A -#define ROUTINE_cfU(T,A) void (*A)(CF_NULL_PROTO) -#define VOID_cfU(T,A) void A /* Needed for C calls FORTRAN sub.s. */ -#define STRING_cfU(T,A) char *A /* via VOID and wrapper. */ -#define STRINGV_cfU(T,A) char *A -#define PSTRING_cfU(T,A) char *A -#define PSTRINGV_cfU(T,A) char *A -#define ZTRINGV_cfU(T,A) char *A -#define PZTRINGV_cfU(T,A) char *A - -/* VOID breaks U into U and UU. */ -#define INT_cfUU(T,A) _(T,VVVVVVV_cfTYPE) A -#define VOID_cfUU(T,A) /* Needed for FORTRAN calls C sub.s. */ -#define STRING_cfUU(T,A) char *A - - -#define BYTE_cfPU(A) CFextern INTEGER_BYTE FCALLSC_QUALIFIER A -#define DOUBLE_cfPU(A) CFextern DOUBLE_PRECISION FCALLSC_QUALIFIER A -#if ! (defined(FLOATFUNCTIONTYPE)&&defined(ASSIGNFLOAT)&&defined(RETURNFLOAT)) -#define FLOAT_cfPU(A) CFextern FORTRAN_REAL FCALLSC_QUALIFIER A -#else -#define FLOAT_cfPU(A) CFextern FLOATFUNCTIONTYPE FCALLSC_QUALIFIER A -#endif -#define INT_cfPU(A) CFextern int FCALLSC_QUALIFIER A -#define LOGICAL_cfPU(A) CFextern int FCALLSC_QUALIFIER A -#define LONG_cfPU(A) CFextern long FCALLSC_QUALIFIER A -#define SHORT_cfPU(A) CFextern short FCALLSC_QUALIFIER A -#define STRING_cfPU(A) CFextern void FCALLSC_QUALIFIER A -#define VOID_cfPU(A) CFextern void FCALLSC_QUALIFIER A - -#define BYTE_cfE INTEGER_BYTE A0; -#define DOUBLE_cfE DOUBLE_PRECISION A0; -#if ! (defined(FLOATFUNCTIONTYPE)&&defined(ASSIGNFLOAT)&&defined(RETURNFLOAT)) -#define FLOAT_cfE FORTRAN_REAL A0; -#else -#define FLOAT_cfE FORTRAN_REAL AA0; FLOATFUNCTIONTYPE A0; -#endif -#define INT_cfE int A0; -#define LOGICAL_cfE int A0; -#define LONG_cfE long A0; -#define SHORT_cfE short A0; -#define VOID_cfE -#ifdef vmsFortran -#define STRING_cfE static char AA0[1+MAX_LEN_FORTRAN_FUNCTION_STRING]; \ - static fstring A0 = \ - {MAX_LEN_FORTRAN_FUNCTION_STRING,DSC$K_DTYPE_T,DSC$K_CLASS_S,AA0};\ - memset(AA0, CFORTRAN_NON_CHAR, MAX_LEN_FORTRAN_FUNCTION_STRING);\ - *(AA0+MAX_LEN_FORTRAN_FUNCTION_STRING)='\0'; -#else -#ifdef CRAYFortran -#define STRING_cfE static char AA0[1+MAX_LEN_FORTRAN_FUNCTION_STRING]; \ - static _fcd A0; *(AA0+MAX_LEN_FORTRAN_FUNCTION_STRING)='\0';\ - memset(AA0,CFORTRAN_NON_CHAR, MAX_LEN_FORTRAN_FUNCTION_STRING);\ - A0 = _cptofcd(AA0,MAX_LEN_FORTRAN_FUNCTION_STRING); -#else -/* 'cc: SC3.0.1 13 Jul 1994' barfs on char A0[0x4FE+1]; - * char A0[0x4FE +1]; char A0[1+0x4FE]; are both OK. */ -#define STRING_cfE static char A0[1+MAX_LEN_FORTRAN_FUNCTION_STRING]; \ - memset(A0, CFORTRAN_NON_CHAR, \ - MAX_LEN_FORTRAN_FUNCTION_STRING); \ - *(A0+MAX_LEN_FORTRAN_FUNCTION_STRING)='\0'; -#endif -#endif -/* ESTRING must use static char. array which is guaranteed to exist after - function returns. */ - -/* N.B.i) The diff. for 0 (Zero) and >=1 arguments. - ii)That the following create an unmatched bracket, i.e. '(', which - must of course be matched in the call. - iii)Commas must be handled very carefully */ -#define INT_cfGZ(T,UN,LN) A0=CFC_(UN,LN)( -#define VOID_cfGZ(T,UN,LN) CFC_(UN,LN)( -#ifdef vmsFortran -#define STRING_cfGZ(T,UN,LN) CFC_(UN,LN)(&A0 -#else -#if defined(CRAYFortran) || defined(AbsoftUNIXFortran) -#define STRING_cfGZ(T,UN,LN) CFC_(UN,LN)( A0 -#else -#define STRING_cfGZ(T,UN,LN) CFC_(UN,LN)( A0,MAX_LEN_FORTRAN_FUNCTION_STRING -#endif -#endif - -#define INT_cfG(T,UN,LN) INT_cfGZ(T,UN,LN) -#define VOID_cfG(T,UN,LN) VOID_cfGZ(T,UN,LN) -#define STRING_cfG(T,UN,LN) STRING_cfGZ(T,UN,LN), /*, is only diff. from _cfG*/ - -#define BYTEVVVVVVV_cfPP -#define INTVVVVVVV_cfPP /* These complement FLOATVVVVVVV_cfPP. */ -#define DOUBLEVVVVVVV_cfPP -#define LOGICALVVVVVVV_cfPP -#define LONGVVVVVVV_cfPP -#define SHORTVVVVVVV_cfPP -#define PBYTE_cfPP -#define PINT_cfPP -#define PDOUBLE_cfPP -#define PLOGICAL_cfPP -#define PLONG_cfPP -#define PSHORT_cfPP -#define PFLOAT_cfPP FLOATVVVVVVV_cfPP - -#define BCF(TN,AN,C) _SEP_(TN,C,COMMA) _Icf(2,B,TN,AN,0) -#define INT_cfB(T,A) (_(T,VVVVVVV_cfTYPE)) A -#define INTV_cfB(T,A) A -#define INTVV_cfB(T,A) (A)[0] -#define INTVVV_cfB(T,A) (A)[0][0] -#define INTVVVV_cfB(T,A) (A)[0][0][0] -#define INTVVVVV_cfB(T,A) (A)[0][0][0][0] -#define INTVVVVVV_cfB(T,A) (A)[0][0][0][0][0] -#define INTVVVVVVV_cfB(T,A) (A)[0][0][0][0][0][0] -#define PINT_cfB(T,A) _(T,_cfPP)&A -#define STRING_cfB(T,A) (char *) A -#define STRINGV_cfB(T,A) (char *) A -#define PSTRING_cfB(T,A) (char *) A -#define PSTRINGV_cfB(T,A) (char *) A -#define PVOID_cfB(T,A) (void *) A -#define ROUTINE_cfB(T,A) (void(*)(CF_NULL_PROTO))A -#define ZTRINGV_cfB(T,A) (char *) A -#define PZTRINGV_cfB(T,A) (char *) A - -#define SCF(TN,NAME,I,A) _(TN,_cfSTR)(3,S,NAME,I,A,0,0) -#define DEFAULT_cfS(M,I,A) -#define LOGICAL_cfS(M,I,A) -#define PLOGICAL_cfS(M,I,A) -#define STRING_cfS(M,I,A) ,sizeof(A) -#define STRINGV_cfS(M,I,A) ,( (unsigned)0xFFFF*firstindexlength(A) \ - +secondindexlength(A)) -#define PSTRING_cfS(M,I,A) ,sizeof(A) -#define PSTRINGV_cfS(M,I,A) STRINGV_cfS(M,I,A) -#define ZTRINGV_cfS(M,I,A) -#define PZTRINGV_cfS(M,I,A) - -#define HCF(TN,I) _(TN,_cfSTR)(3,H,COMMA, H,_(C,I),0,0) -#define HHCF(TN,I) _(TN,_cfSTR)(3,H,COMMA,HH,_(C,I),0,0) -#define HHHCF(TN,I) _(TN,_cfSTR)(3,H,COLON, H,_(C,I),0,0) -#define H_CF_SPECIAL unsigned -#define HH_CF_SPECIAL -#define DEFAULT_cfH(M,I,A) -#define LOGICAL_cfH(S,U,B) -#define PLOGICAL_cfH(S,U,B) -#define STRING_cfH(S,U,B) _(A,S) _(U,_CF_SPECIAL) B -#define STRINGV_cfH(S,U,B) STRING_cfH(S,U,B) -#define PSTRING_cfH(S,U,B) STRING_cfH(S,U,B) -#define PSTRINGV_cfH(S,U,B) STRING_cfH(S,U,B) -#define PNSTRING_cfH(S,U,B) STRING_cfH(S,U,B) -#define PPSTRING_cfH(S,U,B) STRING_cfH(S,U,B) -#define ZTRINGV_cfH(S,U,B) -#define PZTRINGV_cfH(S,U,B) - -/* Need VOID_cfSTR because Absoft forced function types go through _cfSTR. */ -/* No spaces inside expansion. They screws up macro catenation kludge. */ -#define VOID_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTE_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLE_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOAT_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INT_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICAL_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,LOGICAL,A,B,C,D,E) -#define LONG_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORT_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define BYTEVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define DOUBLEVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define FLOATVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define INTVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LOGICALVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define LONGVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SHORTVVVVVVV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define PBYTE_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define PDOUBLE_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define PFLOAT_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define PINT_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define PLOGICAL_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,PLOGICAL,A,B,C,D,E) -#define PLONG_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define PSHORT_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define STRING_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,STRING,A,B,C,D,E) -#define PSTRING_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,PSTRING,A,B,C,D,E) -#define STRINGV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,STRINGV,A,B,C,D,E) -#define PSTRINGV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,PSTRINGV,A,B,C,D,E) -#define PNSTRING_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,PNSTRING,A,B,C,D,E) -#define PPSTRING_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,PPSTRING,A,B,C,D,E) -#define PVOID_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define ROUTINE_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define SIMPLE_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,DEFAULT,A,B,C,D,E) -#define ZTRINGV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,ZTRINGV,A,B,C,D,E) -#define PZTRINGV_cfSTR(N,T,A,B,C,D,E) _(CFARGS,N)(T,PZTRINGV,A,B,C,D,E) -#define CF_0_cfSTR(N,T,A,B,C,D,E) - -/* See ACF table comments, which explain why CCF was split into two. */ -#define CCF(NAME,TN,I) _(TN,_cfSTR)(5,C,NAME,I,_(A,I),_(B,I),_(C,I)) -#define DEFAULT_cfC(M,I,A,B,C) -#define LOGICAL_cfC(M,I,A,B,C) A=C2FLOGICAL( A); -#define PLOGICAL_cfC(M,I,A,B,C) *A=C2FLOGICAL(*A); -#ifdef vmsFortran -#define STRING_cfC(M,I,A,B,C) (B.clen=strlen(A),B.f.dsc$a_pointer=A, \ - C==sizeof(char*)||C==(unsigned)(B.clen+1)?B.f.dsc$w_length=B.clen: \ - (memset((A)+B.clen,' ',C-B.clen-1),A[B.f.dsc$w_length=C-1]='\0')); - /* PSTRING_cfC to beware of array A which does not contain any \0. */ -#define PSTRING_cfC(M,I,A,B,C) (B.dsc$a_pointer=A, C==sizeof(char*) ? \ - B.dsc$w_length=strlen(A): (A[C-1]='\0',B.dsc$w_length=strlen(A), \ - memset((A)+B.dsc$w_length,' ',C-B.dsc$w_length-1), B.dsc$w_length=C-1)); -#else -#define STRING_cfC(M,I,A,B,C) (B.clen=strlen(A), \ - C==sizeof(char*)||C==(unsigned)(B.clen+1)?B.flen=B.clen: \ - (memset((A)+B.clen,' ',C-B.clen-1),A[B.flen=C-1]='\0')); -#define PSTRING_cfC(M,I,A,B,C) (C==sizeof(char*)? B=strlen(A): \ - (A[C-1]='\0',B=strlen(A),memset((A)+B,' ',C-B-1),B=C-1)); -#endif - /* For CRAYFortran for (P)STRINGV_cfC, B.fs is set, but irrelevant. */ -#define STRINGV_cfC(M,I,A,B,C) \ - AATRINGV_cfA( A,B,(C/0xFFFF)*(C%0xFFFF),C/0xFFFF,C%0xFFFF) -#define PSTRINGV_cfC(M,I,A,B,C) \ - APATRINGV_cfA( A,B,(C/0xFFFF)*(C%0xFFFF),C/0xFFFF,C%0xFFFF) -#define ZTRINGV_cfC(M,I,A,B,C) \ - AATRINGV_cfA( A,B, (_3(M,_ELEMS_,I))*((_3(M,_ELEMLEN_,I))+1), \ - (_3(M,_ELEMS_,I)), (_3(M,_ELEMLEN_,I))+1 ) -#define PZTRINGV_cfC(M,I,A,B,C) \ - APATRINGV_cfA( A,B, (_3(M,_ELEMS_,I))*((_3(M,_ELEMLEN_,I))+1), \ - (_3(M,_ELEMS_,I)), (_3(M,_ELEMLEN_,I))+1 ) - -#define BYTE_cfCCC(A,B) &A -#define DOUBLE_cfCCC(A,B) &A -#if !defined(__CF__KnR) -#define FLOAT_cfCCC(A,B) &A - /* Although the VAX doesn't, at least the */ -#else /* HP and K&R mips promote float arg.'s of */ -#define FLOAT_cfCCC(A,B) &B /* unprototyped functions to double. Cannot */ -#endif /* use A here to pass the argument to FORTRAN. */ -#define INT_cfCCC(A,B) &A -#define LOGICAL_cfCCC(A,B) &A -#define LONG_cfCCC(A,B) &A -#define SHORT_cfCCC(A,B) &A -#define PBYTE_cfCCC(A,B) A -#define PDOUBLE_cfCCC(A,B) A -#define PFLOAT_cfCCC(A,B) A -#define PINT_cfCCC(A,B) A -#define PLOGICAL_cfCCC(A,B) B=A /* B used to keep a common W table. */ -#define PLONG_cfCCC(A,B) A -#define PSHORT_cfCCC(A,B) A - -#define CCCF(TN,I,M) _SEP_(TN,M,COMMA) _Icf(3,CC,TN,_(A,I),_(B,I)) -#define INT_cfCC(T,A,B) _(T,_cfCCC)(A,B) -#define INTV_cfCC(T,A,B) A -#define INTVV_cfCC(T,A,B) A -#define INTVVV_cfCC(T,A,B) A -#define INTVVVV_cfCC(T,A,B) A -#define INTVVVVV_cfCC(T,A,B) A -#define INTVVVVVV_cfCC(T,A,B) A -#define INTVVVVVVV_cfCC(T,A,B) A -#define PINT_cfCC(T,A,B) _(T,_cfCCC)(A,B) -#define PVOID_cfCC(T,A,B) A -#if defined(apolloFortran) || defined(hpuxFortran800) || defined(AbsoftUNIXFortran) -#define ROUTINE_cfCC(T,A,B) &A -#else -#define ROUTINE_cfCC(T,A,B) A -#endif -#define SIMPLE_cfCC(T,A,B) A -#ifdef vmsFortran -#define STRING_cfCC(T,A,B) &B.f -#define STRINGV_cfCC(T,A,B) &B -#define PSTRING_cfCC(T,A,B) &B -#define PSTRINGV_cfCC(T,A,B) &B -#else -#ifdef CRAYFortran -#define STRING_cfCC(T,A,B) _cptofcd(A,B.flen) -#define STRINGV_cfCC(T,A,B) _cptofcd(B.s,B.flen) -#define PSTRING_cfCC(T,A,B) _cptofcd(A,B) -#define PSTRINGV_cfCC(T,A,B) _cptofcd(A,B.flen) -#else -#define STRING_cfCC(T,A,B) A -#define STRINGV_cfCC(T,A,B) B.fs -#define PSTRING_cfCC(T,A,B) A -#define PSTRINGV_cfCC(T,A,B) B.fs -#endif -#endif -#define ZTRINGV_cfCC(T,A,B) STRINGV_cfCC(T,A,B) -#define PZTRINGV_cfCC(T,A,B) PSTRINGV_cfCC(T,A,B) - -#define BYTE_cfX return A0; -#define DOUBLE_cfX return A0; -#if ! (defined(FLOATFUNCTIONTYPE)&&defined(ASSIGNFLOAT)&&defined(RETURNFLOAT)) -#define FLOAT_cfX return A0; -#else -#define FLOAT_cfX ASSIGNFLOAT(AA0,A0); return AA0; -#endif -#define INT_cfX return A0; -#define LOGICAL_cfX return F2CLOGICAL(A0); -#define LONG_cfX return A0; -#define SHORT_cfX return A0; -#define VOID_cfX return ; -#if defined(vmsFortran) || defined(CRAYFortran) -#define STRING_cfX return kill_trailing( \ - kill_trailing(AA0,CFORTRAN_NON_CHAR),' '); -#else -#define STRING_cfX return kill_trailing( \ - kill_trailing( A0,CFORTRAN_NON_CHAR),' '); -#endif - -#define CFFUN(NAME) _(__cf__,NAME) - -/* Note that we don't use LN here, but we keep it for consistency. */ -#define CCALLSFFUN0(UN,LN) CFFUN(UN)() - -#ifdef OLD_VAXC /* Allow %CC-I-PARAMNOTUSED. */ -#pragma standard -#endif - -#define CCALLSFFUN1( UN,LN,T1, A1) \ - CCALLSFFUN5 (UN,LN,T1,CF_0,CF_0,CF_0,CF_0,A1,0,0,0,0) -#define CCALLSFFUN2( UN,LN,T1,T2, A1,A2) \ - CCALLSFFUN5 (UN,LN,T1,T2,CF_0,CF_0,CF_0,A1,A2,0,0,0) -#define CCALLSFFUN3( UN,LN,T1,T2,T3, A1,A2,A3) \ - CCALLSFFUN5 (UN,LN,T1,T2,T3,CF_0,CF_0,A1,A2,A3,0,0) -#define CCALLSFFUN4( UN,LN,T1,T2,T3,T4, A1,A2,A3,A4)\ - CCALLSFFUN5 (UN,LN,T1,T2,T3,T4,CF_0,A1,A2,A3,A4,0) -#define CCALLSFFUN5( UN,LN,T1,T2,T3,T4,T5, A1,A2,A3,A4,A5) \ - CCALLSFFUN10(UN,LN,T1,T2,T3,T4,T5,CF_0,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,0,0,0,0,0) -#define CCALLSFFUN6( UN,LN,T1,T2,T3,T4,T5,T6, A1,A2,A3,A4,A5,A6) \ - CCALLSFFUN10(UN,LN,T1,T2,T3,T4,T5,T6,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,0,0,0,0) -#define CCALLSFFUN7( UN,LN,T1,T2,T3,T4,T5,T6,T7, A1,A2,A3,A4,A5,A6,A7) \ - CCALLSFFUN10(UN,LN,T1,T2,T3,T4,T5,T6,T7,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,0,0,0) -#define CCALLSFFUN8( UN,LN,T1,T2,T3,T4,T5,T6,T7,T8, A1,A2,A3,A4,A5,A6,A7,A8) \ - CCALLSFFUN10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,0,0) -#define CCALLSFFUN9( UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,A1,A2,A3,A4,A5,A6,A7,A8,A9)\ - CCALLSFFUN10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,0) -#define CCALLSFFUN10(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA)\ - CCALLSFFUN14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,CF_0,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,0,0,0,0) -#define CCALLSFFUN11(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB)\ - CCALLSFFUN14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,CF_0,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,0,0,0) -#define CCALLSFFUN12(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC)\ - CCALLSFFUN14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,CF_0,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,0,0) -#define CCALLSFFUN13(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD)\ - CCALLSFFUN14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,CF_0,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,0) - -#define CCALLSFFUN14(UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE,A1,A2,A3,A4,A5,A6,A7,A8,A9,AA,AB,AC,AD,AE)\ -((CFFUN(UN)( BCF(T1,A1,0) BCF(T2,A2,1) BCF(T3,A3,1) BCF(T4,A4,1) BCF(T5,A5,1) \ - BCF(T6,A6,1) BCF(T7,A7,1) BCF(T8,A8,1) BCF(T9,A9,1) BCF(TA,AA,1) \ - BCF(TB,AB,1) BCF(TC,AC,1) BCF(TD,AD,1) BCF(TE,AE,1) \ - SCF(T1,LN,1,A1) SCF(T2,LN,2,A2) SCF(T3,LN,3,A3) SCF(T4,LN,4,A4) \ - SCF(T5,LN,5,A5) SCF(T6,LN,6,A6) SCF(T7,LN,7,A7) SCF(T8,LN,8,A8) \ - SCF(T9,LN,9,A9) SCF(TA,LN,A,AA) SCF(TB,LN,B,AB) SCF(TC,LN,C,AC) \ - SCF(TD,LN,D,AD)))) - -/* N.B. Create a separate function instead of using (call function, function -value here) because in order to create the variables needed for the input -arg.'s which may be const.'s one has to do the creation within {}, but these -can never be placed within ()'s. Therefore one must create wrapper functions. -gcc, on the other hand may be able to avoid the wrapper functions. */ - -/* Prototypes are needed to correctly handle the value returned correctly. N.B. -Can only have prototype arg.'s with difficulty, a la G... table since FORTRAN -functions returning strings have extra arg.'s. Don't bother, since this only -causes a compiler warning to come up when one uses FCALLSCFUNn and CCALLSFFUNn -for the same function in the same source code. Something done by the experts in -debugging only.*/ - -#define PROTOCCALLSFFUN0(F,UN,LN) \ -_(F,_cfPU)( CFC_(UN,LN))(CF_NULL_PROTO); \ -static _Icf(2,U,F,CFFUN(UN),0)() {_(F,_cfE) _Icf(3,GZ,F,UN,LN) ABSOFT_cf1(F));_(F,_cfX)} - -#define PROTOCCALLSFFUN1( T0,UN,LN,T1) \ - PROTOCCALLSFFUN5 (T0,UN,LN,T1,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN2( T0,UN,LN,T1,T2) \ - PROTOCCALLSFFUN5 (T0,UN,LN,T1,T2,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN3( T0,UN,LN,T1,T2,T3) \ - PROTOCCALLSFFUN5 (T0,UN,LN,T1,T2,T3,CF_0,CF_0) -#define PROTOCCALLSFFUN4( T0,UN,LN,T1,T2,T3,T4) \ - PROTOCCALLSFFUN5 (T0,UN,LN,T1,T2,T3,T4,CF_0) -#define PROTOCCALLSFFUN5( T0,UN,LN,T1,T2,T3,T4,T5) \ - PROTOCCALLSFFUN10(T0,UN,LN,T1,T2,T3,T4,T5,CF_0,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN6( T0,UN,LN,T1,T2,T3,T4,T5,T6) \ - PROTOCCALLSFFUN10(T0,UN,LN,T1,T2,T3,T4,T5,T6,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN7( T0,UN,LN,T1,T2,T3,T4,T5,T6,T7) \ - PROTOCCALLSFFUN10(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN8( T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8) \ - PROTOCCALLSFFUN10(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,CF_0,CF_0) -#define PROTOCCALLSFFUN9( T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9) \ - PROTOCCALLSFFUN10(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,CF_0) -#define PROTOCCALLSFFUN10(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA) \ - PROTOCCALLSFFUN14(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,CF_0,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN11(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB) \ - PROTOCCALLSFFUN14(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,CF_0,CF_0,CF_0) -#define PROTOCCALLSFFUN12(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC) \ - PROTOCCALLSFFUN14(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,CF_0,CF_0) -#define PROTOCCALLSFFUN13(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD) \ - PROTOCCALLSFFUN14(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,CF_0) - -/* HP/UX 9.01 cc requires the blank between '_Icf(3,G,T0,UN,LN) CCCF(T1,1,0)' */ - -#ifndef __CF__KnR -#define PROTOCCALLSFFUN14(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - _(T0,_cfPU)(CFC_(UN,LN))(CF_NULL_PROTO); static _Icf(2,U,T0,CFFUN(UN),0)( \ - CFARGT14FS(UCF,HCF,_Z,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) ) \ -{ CFARGT14S(VCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) _(T0,_cfE) \ - CCF(LN,T1,1) CCF(LN,T2,2) CCF(LN,T3,3) CCF(LN,T4,4) CCF(LN,T5,5) \ - CCF(LN,T6,6) CCF(LN,T7,7) CCF(LN,T8,8) CCF(LN,T9,9) CCF(LN,TA,A) \ - CCF(LN,TB,B) CCF(LN,TC,C) CCF(LN,TD,D) CCF(LN,TE,E) _Icf(3,G,T0,UN,LN) \ - CFARGT14(CCCF,JCF,ABSOFT_cf1(T0),T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE)); \ - WCF(T1,A1,1) WCF(T2,A2,2) WCF(T3,A3,3) WCF(T4,A4,4) WCF(T5,A5,5) \ - WCF(T6,A6,6) WCF(T7,A7,7) WCF(T8,A8,8) WCF(T9,A9,9) WCF(TA,AA,A) \ - WCF(TB,AB,B) WCF(TC,AC,C) WCF(TD,AD,D) WCF(TE,AE,E) _(T0,_cfX)} -#else -#define PROTOCCALLSFFUN14(T0,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - _(T0,_cfPU)(CFC_(UN,LN))(CF_NULL_PROTO); static _Icf(2,U,T0,CFFUN(UN),0)( \ - CFARGT14FS(UUCF,HHCF,_Z,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) ) \ - CFARGT14FS(UUUCF,HHHCF,_Z,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) ; \ -{ CFARGT14S(VCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) _(T0,_cfE) \ - CCF(LN,T1,1) CCF(LN,T2,2) CCF(LN,T3,3) CCF(LN,T4,4) CCF(LN,T5,5) \ - CCF(LN,T6,6) CCF(LN,T7,7) CCF(LN,T8,8) CCF(LN,T9,9) CCF(LN,TA,A) \ - CCF(LN,TB,B) CCF(LN,TC,C) CCF(LN,TD,D) CCF(LN,TE,E) _Icf(3,G,T0,UN,LN) \ - CFARGT14(CCCF,JCF,ABSOFT_cf1(T0),T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE)); \ - WCF(T1,A1,1) WCF(T2,A2,2) WCF(T3,A3,3) WCF(T4,A4,4) WCF(T5,A5,5) \ - WCF(T6,A6,6) WCF(T7,A7,7) WCF(T8,A8,8) WCF(T9,A9,9) WCF(TA,AA,A) \ - WCF(TB,AB,B) WCF(TC,AC,C) WCF(TD,AD,D) WCF(TE,AE,E) _(T0,_cfX)} -#endif - -/*-------------------------------------------------------------------------*/ - -/* UTILITIES FOR FORTRAN TO CALL C ROUTINES */ - -#ifdef OLD_VAXC /* Prevent %CC-I-PARAMNOTUSED. */ -#pragma nostandard -#endif - -#if defined(vmsFortran) || defined(CRAYFortran) -#define DCF(TN,I) -#define DDCF(TN,I) -#define DDDCF(TN,I) -#else -#define DCF(TN,I) HCF(TN,I) -#define DDCF(TN,I) HHCF(TN,I) -#define DDDCF(TN,I) HHHCF(TN,I) -#endif - -#define QCF(TN,I) _(TN,_cfSTR)(1,Q,_(B,I), 0,0,0,0) -#define DEFAULT_cfQ(B) -#define LOGICAL_cfQ(B) -#define PLOGICAL_cfQ(B) -#define STRINGV_cfQ(B) char *B; unsigned int _(B,N); -#define STRING_cfQ(B) char *B=NULL; -#define PSTRING_cfQ(B) char *B=NULL; -#define PSTRINGV_cfQ(B) STRINGV_cfQ(B) -#define PNSTRING_cfQ(B) char *B=NULL; -#define PPSTRING_cfQ(B) - -#ifdef __sgi /* Else SGI gives warning 182 contrary to its C LRM A.17.7 */ -#define ROUTINE_orig *(void**)& -#else -#define ROUTINE_orig (void *) -#endif - -#define ROUTINE_1 ROUTINE_orig -#define ROUTINE_2 ROUTINE_orig -#define ROUTINE_3 ROUTINE_orig -#define ROUTINE_4 ROUTINE_orig -#define ROUTINE_5 ROUTINE_orig -#define ROUTINE_6 ROUTINE_orig -#define ROUTINE_7 ROUTINE_orig -#define ROUTINE_8 ROUTINE_orig -#define ROUTINE_9 ROUTINE_orig -#define ROUTINE_10 ROUTINE_orig -#define ROUTINE_11 ROUTINE_orig -#define ROUTINE_12 ROUTINE_orig -#define ROUTINE_13 ROUTINE_orig -#define ROUTINE_14 ROUTINE_orig - -#define TCF(NAME,TN,I,M) _SEP_(TN,M,COMMA) _(TN,_cfT)(NAME,I,_(A,I),_(B,I),_(C,I)) -#define BYTE_cfT(M,I,A,B,D) *A -#define DOUBLE_cfT(M,I,A,B,D) *A -#define FLOAT_cfT(M,I,A,B,D) *A -#define INT_cfT(M,I,A,B,D) *A -#define LOGICAL_cfT(M,I,A,B,D) F2CLOGICAL(*A) -#define LONG_cfT(M,I,A,B,D) *A -#define SHORT_cfT(M,I,A,B,D) *A -#define BYTEV_cfT(M,I,A,B,D) A -#define DOUBLEV_cfT(M,I,A,B,D) A -#define FLOATV_cfT(M,I,A,B,D) VOIDP A -#define INTV_cfT(M,I,A,B,D) A -#define LOGICALV_cfT(M,I,A,B,D) A -#define LONGV_cfT(M,I,A,B,D) A -#define SHORTV_cfT(M,I,A,B,D) A -#define BYTEVV_cfT(M,I,A,B,D) (void *)A /* We have to cast to void *,*/ -#define BYTEVVV_cfT(M,I,A,B,D) (void *)A /* since we don't know the */ -#define BYTEVVVV_cfT(M,I,A,B,D) (void *)A /* dimensions of the array. */ -#define BYTEVVVVV_cfT(M,I,A,B,D) (void *)A /* i.e. Unfortunately, can't */ -#define BYTEVVVVVV_cfT(M,I,A,B,D) (void *)A /* check that the type */ -#define BYTEVVVVVVV_cfT(M,I,A,B,D) (void *)A /* matches the prototype. */ -#define DOUBLEVV_cfT(M,I,A,B,D) (void *)A -#define DOUBLEVVV_cfT(M,I,A,B,D) (void *)A -#define DOUBLEVVVV_cfT(M,I,A,B,D) (void *)A -#define DOUBLEVVVVV_cfT(M,I,A,B,D) (void *)A -#define DOUBLEVVVVVV_cfT(M,I,A,B,D) (void *)A -#define DOUBLEVVVVVVV_cfT(M,I,A,B,D) (void *)A -#define FLOATVV_cfT(M,I,A,B,D) (void *)A -#define FLOATVVV_cfT(M,I,A,B,D) (void *)A -#define FLOATVVVV_cfT(M,I,A,B,D) (void *)A -#define FLOATVVVVV_cfT(M,I,A,B,D) (void *)A -#define FLOATVVVVVV_cfT(M,I,A,B,D) (void *)A -#define FLOATVVVVVVV_cfT(M,I,A,B,D) (void *)A -#define INTVV_cfT(M,I,A,B,D) (void *)A -#define INTVVV_cfT(M,I,A,B,D) (void *)A -#define INTVVVV_cfT(M,I,A,B,D) (void *)A -#define INTVVVVV_cfT(M,I,A,B,D) (void *)A -#define INTVVVVVV_cfT(M,I,A,B,D) (void *)A -#define INTVVVVVVV_cfT(M,I,A,B,D) (void *)A -#define LOGICALVV_cfT(M,I,A,B,D) (void *)A -#define LOGICALVVV_cfT(M,I,A,B,D) (void *)A -#define LOGICALVVVV_cfT(M,I,A,B,D) (void *)A -#define LOGICALVVVVV_cfT(M,I,A,B,D) (void *)A -#define LOGICALVVVVVV_cfT(M,I,A,B,D) (void *)A -#define LOGICALVVVVVVV_cfT(M,I,A,B,D) (void *)A -#define LONGVV_cfT(M,I,A,B,D) (void *)A -#define LONGVVV_cfT(M,I,A,B,D) (void *)A -#define LONGVVVV_cfT(M,I,A,B,D) (void *)A -#define LONGVVVVV_cfT(M,I,A,B,D) (void *)A -#define LONGVVVVVV_cfT(M,I,A,B,D) (void *)A -#define LONGVVVVVVV_cfT(M,I,A,B,D) (void *)A -#define SHORTVV_cfT(M,I,A,B,D) (void *)A -#define SHORTVVV_cfT(M,I,A,B,D) (void *)A -#define SHORTVVVV_cfT(M,I,A,B,D) (void *)A -#define SHORTVVVVV_cfT(M,I,A,B,D) (void *)A -#define SHORTVVVVVV_cfT(M,I,A,B,D) (void *)A -#define SHORTVVVVVVV_cfT(M,I,A,B,D) (void *)A -#define PBYTE_cfT(M,I,A,B,D) A -#define PDOUBLE_cfT(M,I,A,B,D) A -#define PFLOAT_cfT(M,I,A,B,D) VOIDP A -#define PINT_cfT(M,I,A,B,D) A -#define PLOGICAL_cfT(M,I,A,B,D) ((*A=F2CLOGICAL(*A)),A) -#define PLONG_cfT(M,I,A,B,D) A -#define PSHORT_cfT(M,I,A,B,D) A -#define PVOID_cfT(M,I,A,B,D) A -#if defined(apolloFortran) || defined(hpuxFortran800) || defined(AbsoftUNIXFortran) -#define ROUTINE_cfT(M,I,A,B,D) _(ROUTINE_,I) (*A) -#else -#define ROUTINE_cfT(M,I,A,B,D) _(ROUTINE_,I) A -#endif -/* A == pointer to the characters - D == length of the string, or of an element in an array of strings - E == number of elements in an array of strings */ -#define TTSTR( A,B,D) \ - ((B=(char*)malloc(D+1))[D]='\0', memcpy(B,A,D), kill_trailing(B,' ')) -#define TTTTSTR( A,B,D) (!(D<4||A[0]||A[1]||A[2]||A[3]))?NULL: \ - memchr(A,'\0',D) ?A : TTSTR(A,B,D) -#define TTTTSTRV( A,B,D,E) (_(B,N)=E,B=(char*)malloc(_(B,N)*(D+1)), (void *) \ - vkill_trailing(f2cstrv(A,B,D+1, _(B,N)*(D+1)), D+1,_(B,N)*(D+1),' ')) -#ifdef vmsFortran -#define STRING_cfT(M,I,A,B,D) TTTTSTR( A->dsc$a_pointer,B,A->dsc$w_length) -#define STRINGV_cfT(M,I,A,B,D) TTTTSTRV(A->dsc$a_pointer, B, \ - A->dsc$w_length , A->dsc$l_m[0]) -#define PSTRING_cfT(M,I,A,B,D) TTSTR( A->dsc$a_pointer,B,A->dsc$w_length) -#define PPSTRING_cfT(M,I,A,B,D) A->dsc$a_pointer -#else -#ifdef CRAYFortran -#define STRING_cfT(M,I,A,B,D) TTTTSTR( _fcdtocp(A),B,_fcdlen(A)) -#define STRINGV_cfT(M,I,A,B,D) TTTTSTRV(_fcdtocp(A),B,_fcdlen(A), \ - num_elem(_fcdtocp(A),_fcdlen(A),_3(M,_STRV_A,I))) -#define PSTRING_cfT(M,I,A,B,D) TTSTR( _fcdtocp(A),B,_fcdlen(A)) -#define PPSTRING_cfT(M,I,A,B,D) _fcdtocp(A) -#else -#define STRING_cfT(M,I,A,B,D) TTTTSTR( A,B,D) -#define STRINGV_cfT(M,I,A,B,D) TTTTSTRV(A,B,D, num_elem(A,D,_3(M,_STRV_A,I))) -#define PSTRING_cfT(M,I,A,B,D) TTSTR( A,B,D) -#define PPSTRING_cfT(M,I,A,B,D) A -#endif -#endif -#define PNSTRING_cfT(M,I,A,B,D) STRING_cfT(M,I,A,B,D) -#define PSTRINGV_cfT(M,I,A,B,D) STRINGV_cfT(M,I,A,B,D) -#define CF_0_cfT(M,I,A,B,D) - -#define RCF(TN,I) _(TN,_cfSTR)(3,R,_(A,I),_(B,I),_(C,I),0,0) -#define DEFAULT_cfR(A,B,D) -#define LOGICAL_cfR(A,B,D) -#define PLOGICAL_cfR(A,B,D) *A=C2FLOGICAL(*A); -#define STRING_cfR(A,B,D) if (B) free(B); -#define STRINGV_cfR(A,B,D) free(B); -/* A and D as defined above for TSTRING(V) */ -#define RRRRPSTR( A,B,D) if (B) memcpy(A,B, _cfMIN(strlen(B),D)), \ - (D>strlen(B)?memset(A+strlen(B),' ', D-strlen(B)):0), free(B); -#define RRRRPSTRV(A,B,D) c2fstrv(B,A,D+1,(D+1)*_(B,N)), free(B); -#ifdef vmsFortran -#define PSTRING_cfR(A,B,D) RRRRPSTR( A->dsc$a_pointer,B,A->dsc$w_length) -#define PSTRINGV_cfR(A,B,D) RRRRPSTRV(A->dsc$a_pointer,B,A->dsc$w_length) -#else -#ifdef CRAYFortran -#define PSTRING_cfR(A,B,D) RRRRPSTR( _fcdtocp(A),B,_fcdlen(A)) -#define PSTRINGV_cfR(A,B,D) RRRRPSTRV(_fcdtocp(A),B,_fcdlen(A)) -#else -#define PSTRING_cfR(A,B,D) RRRRPSTR( A,B,D) -#define PSTRINGV_cfR(A,B,D) RRRRPSTRV(A,B,D) -#endif -#endif -#define PNSTRING_cfR(A,B,D) PSTRING_cfR(A,B,D) -#define PPSTRING_cfR(A,B,D) - -#define BYTE_cfFZ(UN,LN) INTEGER_BYTE FCALLSC_QUALIFIER fcallsc(UN,LN)( -#define DOUBLE_cfFZ(UN,LN) DOUBLE_PRECISION FCALLSC_QUALIFIER fcallsc(UN,LN)( -#define INT_cfFZ(UN,LN) int FCALLSC_QUALIFIER fcallsc(UN,LN)( -#define LOGICAL_cfFZ(UN,LN) int FCALLSC_QUALIFIER fcallsc(UN,LN)( -#define LONG_cfFZ(UN,LN) long FCALLSC_QUALIFIER fcallsc(UN,LN)( -#define SHORT_cfFZ(UN,LN) short FCALLSC_QUALIFIER fcallsc(UN,LN)( -#define VOID_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)( -#ifndef __CF__KnR -/* The void is req'd by the Apollo, to make this an ANSI function declaration. - The Apollo promotes K&R float functions to double. */ -#define FLOAT_cfFZ(UN,LN) FORTRAN_REAL FCALLSC_QUALIFIER fcallsc(UN,LN)(void -#ifdef vmsFortran -#define STRING_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)(fstring *AS -#else -#ifdef CRAYFortran -#define STRING_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)(_fcd AS -#else -#if defined(AbsoftUNIXFortran) -#define STRING_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)(char *AS -#else -#define STRING_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)(char *AS, unsigned D0 -#endif -#endif -#endif -#else -#if ! (defined(FLOATFUNCTIONTYPE)&&defined(ASSIGNFLOAT)&&defined(RETURNFLOAT)) -#define FLOAT_cfFZ(UN,LN) FORTRAN_REAL FCALLSC_QUALIFIER fcallsc(UN,LN)( -#else -#define FLOAT_cfFZ(UN,LN) FLOATFUNCTIONTYPE FCALLSC_QUALIFIER fcallsc(UN,LN)( -#endif -#if defined(vmsFortran) || defined(CRAYFortran) || defined(AbsoftUNIXFortran) -#define STRING_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)(AS -#else -#define STRING_cfFZ(UN,LN) void FCALLSC_QUALIFIER fcallsc(UN,LN)(AS, D0 -#endif -#endif - -#define BYTE_cfF(UN,LN) BYTE_cfFZ(UN,LN) -#define DOUBLE_cfF(UN,LN) DOUBLE_cfFZ(UN,LN) -#ifndef __CF_KnR -#define FLOAT_cfF(UN,LN) FORTRAN_REAL FCALLSC_QUALIFIER fcallsc(UN,LN)( -#else -#define FLOAT_cfF(UN,LN) FLOAT_cfFZ(UN,LN) -#endif -#define INT_cfF(UN,LN) INT_cfFZ(UN,LN) -#define LOGICAL_cfF(UN,LN) LOGICAL_cfFZ(UN,LN) -#define LONG_cfF(UN,LN) LONG_cfFZ(UN,LN) -#define SHORT_cfF(UN,LN) SHORT_cfFZ(UN,LN) -#define VOID_cfF(UN,LN) VOID_cfFZ(UN,LN) -#define STRING_cfF(UN,LN) STRING_cfFZ(UN,LN), - -#define INT_cfFF -#define VOID_cfFF -#ifdef vmsFortran -#define STRING_cfFF fstring *AS; -#else -#ifdef CRAYFortran -#define STRING_cfFF _fcd AS; -#else -#define STRING_cfFF char *AS; unsigned D0; -#endif -#endif - -#define INT_cfL A0= -#define STRING_cfL A0= -#define VOID_cfL - -#define INT_cfK -#define VOID_cfK -/* KSTRING copies the string into the position provided by the caller. */ -#ifdef vmsFortran -#define STRING_cfK \ - memcpy(AS->dsc$a_pointer,A0,_cfMIN(AS->dsc$w_length,(A0==NULL?0:strlen(A0))));\ - AS->dsc$w_length>(A0==NULL?0:strlen(A0))? \ - memset(AS->dsc$a_pointer+(A0==NULL?0:strlen(A0)),' ', \ - AS->dsc$w_length-(A0==NULL?0:strlen(A0))):0; -#else -#ifdef CRAYFortran -#define STRING_cfK \ - memcpy(_fcdtocp(AS),A0, _cfMIN(_fcdlen(AS),(A0==NULL?0:strlen(A0))) ); \ - _fcdlen(AS)>(A0==NULL?0:strlen(A0))? \ - memset(_fcdtocp(AS)+(A0==NULL?0:strlen(A0)),' ', \ - _fcdlen(AS)-(A0==NULL?0:strlen(A0))):0; -#else -#define STRING_cfK memcpy(AS,A0, _cfMIN(D0,(A0==NULL?0:strlen(A0))) ); \ - D0>(A0==NULL?0:strlen(A0))?memset(AS+(A0==NULL?0:strlen(A0)), \ - ' ', D0-(A0==NULL?0:strlen(A0))):0; -#endif -#endif - -/* Note that K.. and I.. can't be combined since K.. has to access data before -R.., in order for functions returning strings which are also passed in as -arguments to work correctly. Note that R.. frees and hence may corrupt the -string. */ -#define BYTE_cfI return A0; -#define DOUBLE_cfI return A0; -#if ! (defined(FLOATFUNCTIONTYPE)&&defined(ASSIGNFLOAT)&&defined(RETURNFLOAT)) -#define FLOAT_cfI return A0; -#else -#define FLOAT_cfI RETURNFLOAT(A0); -#endif -#define INT_cfI return A0; -#ifdef hpuxFortran800 -/* Incredibly, functions must return true as 1, elsewhere .true.==0x01000000. */ -#define LOGICAL_cfI return ((A0)?1:0); -#else -#define LOGICAL_cfI return C2FLOGICAL(A0); -#endif -#define LONG_cfI return A0; -#define SHORT_cfI return A0; -#define STRING_cfI return ; -#define VOID_cfI return ; - -#ifdef OLD_VAXC /* Allow %CC-I-PARAMNOTUSED. */ -#pragma standard -#endif - -#define FCALLSCSUB0( CN,UN,LN) FCALLSCFUN0(VOID,CN,UN,LN) -#define FCALLSCSUB1( CN,UN,LN,T1) FCALLSCFUN1(VOID,CN,UN,LN,T1) -#define FCALLSCSUB2( CN,UN,LN,T1,T2) FCALLSCFUN2(VOID,CN,UN,LN,T1,T2) -#define FCALLSCSUB3( CN,UN,LN,T1,T2,T3) FCALLSCFUN3(VOID,CN,UN,LN,T1,T2,T3) -#define FCALLSCSUB4( CN,UN,LN,T1,T2,T3,T4) \ - FCALLSCFUN4(VOID,CN,UN,LN,T1,T2,T3,T4) -#define FCALLSCSUB5( CN,UN,LN,T1,T2,T3,T4,T5) \ - FCALLSCFUN5(VOID,CN,UN,LN,T1,T2,T3,T4,T5) -#define FCALLSCSUB6( CN,UN,LN,T1,T2,T3,T4,T5,T6) \ - FCALLSCFUN6(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6) -#define FCALLSCSUB7( CN,UN,LN,T1,T2,T3,T4,T5,T6,T7) \ - FCALLSCFUN7(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7) -#define FCALLSCSUB8( CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8) \ - FCALLSCFUN8(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8) -#define FCALLSCSUB9( CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9) \ - FCALLSCFUN9(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9) -#define FCALLSCSUB10(CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA) \ - FCALLSCFUN10(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA) -#define FCALLSCSUB11(CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB) \ - FCALLSCFUN11(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB) -#define FCALLSCSUB12(CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC) \ - FCALLSCFUN12(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC) -#define FCALLSCSUB13(CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD) \ - FCALLSCFUN13(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD) -#define FCALLSCSUB14(CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - FCALLSCFUN14(VOID,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) - -#define FCALLSCFUN1( T0,CN,UN,LN,T1) \ - FCALLSCFUN5 (T0,CN,UN,LN,T1,CF_0,CF_0,CF_0,CF_0) -#define FCALLSCFUN2( T0,CN,UN,LN,T1,T2) \ - FCALLSCFUN5 (T0,CN,UN,LN,T1,T2,CF_0,CF_0,CF_0) -#define FCALLSCFUN3( T0,CN,UN,LN,T1,T2,T3) \ - FCALLSCFUN5 (T0,CN,UN,LN,T1,T2,T3,CF_0,CF_0) -#define FCALLSCFUN4( T0,CN,UN,LN,T1,T2,T3,T4) \ - FCALLSCFUN5 (T0,CN,UN,LN,T1,T2,T3,T4,CF_0) -#define FCALLSCFUN5( T0,CN,UN,LN,T1,T2,T3,T4,T5) \ - FCALLSCFUN10(T0,CN,UN,LN,T1,T2,T3,T4,T5,CF_0,CF_0,CF_0,CF_0,CF_0) -#define FCALLSCFUN6( T0,CN,UN,LN,T1,T2,T3,T4,T5,T6) \ - FCALLSCFUN10(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,CF_0,CF_0,CF_0,CF_0) -#define FCALLSCFUN7( T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7) \ - FCALLSCFUN10(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,CF_0,CF_0,CF_0) -#define FCALLSCFUN8( T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8) \ - FCALLSCFUN10(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,CF_0,CF_0) -#define FCALLSCFUN9( T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9) \ - FCALLSCFUN10(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,CF_0) -#define FCALLSCFUN10(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA) \ - FCALLSCFUN14(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,CF_0,CF_0,CF_0,CF_0) -#define FCALLSCFUN11(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB) \ - FCALLSCFUN14(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,CF_0,CF_0,CF_0) -#define FCALLSCFUN12(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC) \ - FCALLSCFUN14(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,CF_0,CF_0) -#define FCALLSCFUN13(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD) \ - FCALLSCFUN14(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,CF_0) - -#ifndef __CF__KnR -#define FCALLSCFUN0(T0,CN,UN,LN) CFextern _(T0,_cfFZ)(UN,LN) ABSOFT_cf2(T0)) \ - {_Icf(2,UU,T0,A0,0); _Icf(0,L,T0,0,0) CN(); _Icf(0,K,T0,0,0) _(T0,_cfI)} - -#define FCALLSCFUN14(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - CFextern _(T0,_cfF)(UN,LN) \ - CFARGT14(NCF,DCF,ABSOFT_cf2(T0),T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE)) \ - { CFARGT14S(QCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - _Icf(2,UU,T0,A0,0); _Icf(0,L,T0,0,0) CN( TCF(LN,T1,1,0) TCF(LN,T2,2,1) \ - TCF(LN,T3,3,1) TCF(LN,T4,4,1) TCF(LN,T5,5,1) TCF(LN,T6,6,1) TCF(LN,T7,7,1) \ - TCF(LN,T8,8,1) TCF(LN,T9,9,1) TCF(LN,TA,A,1) TCF(LN,TB,B,1) TCF(LN,TC,C,1) \ - TCF(LN,TD,D,1) TCF(LN,TE,E,1) ); _Icf(0,K,T0,0,0) \ - CFARGT14S(RCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) _(T0,_cfI) } -#else -#define FCALLSCFUN0(T0,CN,UN,LN) CFextern _(T0,_cfFZ)(UN,LN) ABSOFT_cf3(T0)) _Icf(0,FF,T0,0,0)\ - {_Icf(2,UU,T0,A0,0); _Icf(0,L,T0,0,0) CN(); _Icf(0,K,T0,0,0) _(T0,_cfI)} - -#define FCALLSCFUN14(T0,CN,UN,LN,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - CFextern _(T0,_cfF)(UN,LN) \ - CFARGT14(NNCF,DDCF,ABSOFT_cf3(T0),T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE)) _Icf(0,FF,T0,0,0) \ - CFARGT14FS(NNNCF,DDDCF,_Z,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE); \ - { CFARGT14S(QCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) \ - _Icf(2,UU,T0,A0,0); _Icf(0,L,T0,0,0) CN( TCF(LN,T1,1,0) TCF(LN,T2,2,1) \ - TCF(LN,T3,3,1) TCF(LN,T4,4,1) TCF(LN,T5,5,1) TCF(LN,T6,6,1) TCF(LN,T7,7,1) \ - TCF(LN,T8,8,1) TCF(LN,T9,9,1) TCF(LN,TA,A,1) TCF(LN,TB,B,1) TCF(LN,TC,C,1) \ - TCF(LN,TD,D,1) TCF(LN,TE,E,1) ); _Icf(0,K,T0,0,0) \ - CFARGT14S(RCF,T1,T2,T3,T4,T5,T6,T7,T8,T9,TA,TB,TC,TD,TE) _(T0,_cfI)} -#endif - - -#endif /* __CFORTRAN_LOADED */ |