/* 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. */ /* 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 /* NULL [in all machines stdio.h] */ #include /* strlen, memset, memcpy, memchr. */ #if !( defined(VAXUltrix) || defined(sun) || (defined(apollo)&&!defined(__STDCPP__)) ) #include /* malloc,free */ #else #include /* 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. */ #ifdef CLIPPERFortran #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(__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 \ - 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(extname) #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 #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 #else #include "descrip.h" /* i.e. if crosscompiling assume user has file. */ #endif #endif #ifdef sunFortran #if defined(sun) || defined(__sun) #include /* 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 * , 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 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) { /* 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)) #else #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; } #endif /*-------------------------------------------------------------------------*/ /* 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 */