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|
/* cfortest.c 4.3 */
/* http://www-zeus.desy.de/~burow/cfortran/ */
/* Burkhard Burow burow@desy.de 1990 - 2001. */
#include <stdio.h>
#include <stdlib.h> /* qsort EXIT_SUCCESS */
#ifndef EXIT_SUCCESS
#define EXIT_SUCCESS 0
#endif
#include "cfortran.h"
#define EASY_SELECT /* To see the various examples select one of:
EASY_SELECT,SUBT_SELECT, SZ_SELECT, FT_SELECT, FZ_SELECT, SS1_SELECT,
ABC_SELECT, RR_SELECT, REV_SELECT, FCB_SELECT, EQ_SELECT, F0_SELECT,
FA_SELECT, FB_SELECT, FC_SELECT, FD_SELECT, FE_SELECT, FF_SELECT,
FG_SELECT, FH_SELECT, FI_SELECT, FJ_SELECT, FK_SELECT, FL_SELECT,
FM_SELECT, FN_SELECT, VV_SELECT, V7_SELECT,FAND_SELECT,FORR_SELECT,
STRTOK_SELECT,USER_SELECT, FUN_SELECT, SUB_SELECT. Q_SELECT, E2_SELECT,
FSTR_SELECT,CF14_SELECT, F20_SELECT, F27_SELECT, SZ1_SELECT, PZ_SELECT.
*/
/* FORTRAN_REAL, instead of float, is only required for CRAY T3E. */
/* DOUBLE_PRECISION, instead of double, is only required for CRAY (not T3E). */
#ifdef NAGf90Fortran
/*
Following is only a C main calling f90-compiled Fortran routines.
Irrelevant when Fortran PROGRAM calls C routines.
Advice for 'NAGWare f90 compiler Version 2.0a(264)'
and presumably also for more recent versions:
C main must call f90_init and f90_finish. See kludge below.
Initialization and termination behavior of f90 is easily investigated, e.g.
burow[9] cat f.f
end
burow[10] f90 -S f.f
burow[11] cat f.c
#include <f90.h>
int main(argc,argv) int argc; char *argv[];
{
f90_init(argc,argv);
f90_finish(0);
}
Advice for earlier incarnations of NAGWare f90:
NAG f90 library hijacks main() and the user's program starts with a call to
void f90_main(void);
No problem for cfortest.c, but woe is the C application which uses
command line arguments for which NAG f90 provides no support.
*/
/* Assume Version 2.0a(264) or more recent. */
main(argc, argv) int argc; char *argv[];
{f90_init(argc,argv); f90_main(argc,argv); f90_finish(0); return EXIT_SUCCESS;}
#define main f90_main
#endif
#ifdef EASY_SELECT
PROTOCCALLSFSUB2(EASY,easy, PINT, INT)
#define EASY(A,B) CCALLSFSUB2(EASY,easy, PINT, INT, A, B)
main() {
int a;
printf("\nEASY EXAMPLE\n");
EASY(a,7);
printf("The FORTRAN routine EASY(a,7) returns a = %d\n", a);
return EXIT_SUCCESS;
}
#endif
#ifdef SUBT_SELECT
PROTOCCALLSFSUB3(SUBT,subt, PSTRINGV, STRINGV, FLOAT)
#define SUBT(A,B,C) CCALLSFSUB3(SUBT,subt, PSTRINGV, STRINGV, FLOAT, A, B, C)
int main() {
static char v[][5] = {"000 ", "1", "22", " "};
static char w[][9] = {" ", "bb","ccc ","dddd"};
SUBT(v, w, 10.);
printf("main:v=%s,%s,%s,%s. PSTRINGV => Has had trailing blanks stripped.\n",
v[0],v[1],v[2],v[3]);
printf("main:w=%s,%s,%s,%s. STRINGV => malloc'd copy for FORTRAN=> C intact.\n"
,w[0],w[1],w[2],w[3]);
return EXIT_SUCCESS;
}
#endif
#ifdef SZ_SELECT
#define sz_ELEMS_1 ZTRINGV_ARGS(3)
#define sz_ELEMLEN_1 ZTRINGV_NUM(6)
#define sz_ELEMS_2 ZTRINGV_NUM(4)
#define sz_ELEMLEN_2 ZTRINGV_NUM(8)
PROTOCCALLSFSUB3(SZ,sz, PZTRINGV, ZTRINGV, INT)
#define SZ(A,B,C) CCALLSFSUB3(SZ,sz, PZTRINGV, ZTRINGV, INT, A, B, C)
int main() {
static char v[][7] = {"000 ", "1", "22", " "};
static char w[][9] = {" ", "bb","ccc ","dddd"};
SZ(v, w, 4);
printf("main:v=%s,%s,%s,%s. PZTRINGV => Has had trailing blanks stripped.\n",
v[0],v[1],v[2],v[3]);
printf("main:w=%s,%s,%s,%s. ZTRINGV => malloc'd copy for FORTRAN=> C intact.\n"
,w[0],w[1],w[2],w[3]);
return EXIT_SUCCESS;
}
#endif
#ifdef FT_SELECT
PROTOCCALLSFFUN3(STRING,FT,ft, PSTRINGV, STRINGV, FLOAT)
#define FT(A,B,C) CCALLSFFUN3(FT,ft, PSTRINGV, STRINGV, FLOAT, A, B, C)
main() {
static char v[][5] = {"000 ", "1", "22", " "};
static char w[][9] = {" ", "bb","ccc ","dddd"};
FORTRAN_REAL a = 10.0;
printf("FT(v, w, a); returns:%s.\n",FT(v, w, a));
printf("main:v=%s,%s,%s,%s. PSTRINGV => Has had trailing blanks stripped.\n",
v[0],v[1],v[2],v[3]);
printf("main:w=%s,%s,%s,%s. STRINGV => malloc'd copy for FORTRAN=> C intact.\n"
,w[0],w[1],w[2],w[3]);
return EXIT_SUCCESS;
}
#endif
#ifdef FZ_SELECT
#define fz_ELEMS_1 ZTRINGV_ARGF(3)
#define fz_ELEMLEN_1 ZTRINGV_NUM(6)
#define fz_ELEMS_2 ZTRINGV_NUM(4)
#define fz_ELEMLEN_2 ZTRINGV_NUM(8)
PROTOCCALLSFFUN3(STRING,FZ,fz, PZTRINGV, ZTRINGV, INT)
#define FZ(A,B,C) CCALLSFFUN3(FZ,fz, PZTRINGV, ZTRINGV, INT, A, B, C)
main() {
static char v[][7] = {"000 ", "1", "22", " "};
static char w[][9] = {" ", "bb","ccc ","dddd"};
printf("FZ(v, w, a); returns:%s.\n",FZ(v, w, 4));
printf("main:v=%s,%s,%s,%s. PZTRINGV => Has had trailing blanks stripped.\n",
v[0],v[1],v[2],v[3]);
printf("main:w=%s,%s,%s,%s. ZTRINGV => malloc'd copy for FORTRAN=> C intact.\n"
,w[0],w[1],w[2],w[3]);
return EXIT_SUCCESS;
}
#endif
#ifdef SS1_SELECT
PROTOCCALLSFSUB1(SS1,ss1, PSTRING)
#define SS1(A1) CCALLSFSUB1(SS1,ss1, PSTRING, A1)
PROTOCCALLSFSUB1(FORSTR1,forstr1, PSTRING)
#define FORSTR1(A1) CCALLSFSUB1(FORSTR1,forstr1, PSTRING, A1)
main() {
static char b[] = "abcdefghij", forb[13] = "abcdefghijkl";
SS1(b); FORSTR1(forb);
printf("SS1(b) returns b = %s; FORSTR1(forb) = returns forb = %s;\n", b, forb);
return EXIT_SUCCESS;
}
#endif
#ifdef ABC_SELECT
PROTOCCALLSFSUB3(ABC,abc, STRING, PSTRING, PSTRING)
#define ABC(A1,A2,A3) CCALLSFSUB3(ABC,abc, STRING, PSTRING, PSTRING, A1, A2, A3)
main() {
static char aa[] = "one ", bb[] = "two ", cc[] = "three"; int i;
for (i=0; i<10; i++) {printf("%s;%s;%s;\n",aa,bb,cc); ABC(aa,bb,cc);}
return EXIT_SUCCESS;
}
#endif
#ifdef RR_SELECT
PROTOCCALLSFFUN1(FLOAT,RR,rr,INT)
#define RR(A1) CCALLSFFUN1(RR,rr, INT, A1)
PROTOCCALLSFFUN0(STRING,FORSTR2,forstr2)
#define FORSTR2() CCALLSFFUN0(FORSTR2,forstr2)
PROTOCCALLSFFUN1(STRING,FORSTR,forstr,STRING)
#define FORSTR(A1) CCALLSFFUN1(FORSTR,forstr, STRING, A1)
main() {
static char aa[] = "one";
int rrr = 333;
printf("RR(rrr=%d) returns int arg. as float:%f\n",rrr,RR(rrr));
printf("FORSTR(aa=%s) returns the string arg. as:%s<-end here\n",aa,FORSTR(aa));
printf("FORSTR2() returns the string constant:%s<-end here\n",FORSTR2());
return EXIT_SUCCESS;
}
#endif
#ifdef REV_SELECT
PROTOCCALLSFFUN1(INT,FREV,frev, INTV)
#define FREV(A1) CCALLSFFUN1(FREV,frev, INTV, A1)
/* K&R mode of SunOS and Ultrix C prepro. dissallow space before FREV,
* since they then go into an infinite loop of FREV replacement. */
PROTOCCALLSFSUB1(REV,rev, INTV)
#define REV(A1) CCALLSFSUB1(REV,rev, INTV, A1)
main() {
static int a[] = {1,2};
printf("REV(a[0,1]=%d,%d) receives:",a[0],a[1]);
REV(a); printf("a[0,1]=%d,%d\n",a[0],a[1]);
printf("FREV(a[0,1]=%d,%d) receives:",a[0],a[1]);
printf("%d",FREV(a)); printf(" with a[0,1]=%d,%d\n",a[0],a[1]);
return EXIT_SUCCESS;
}
#endif
#ifdef FCB_SELECT
PROTOCCALLSFSUB0(FFCB,ffcb)
#define FFCB() CCALLSFSUB0(FFCB,ffcb)
typedef struct { char v[13],w[4][13],x[2][3][13]; } FCB_DEF;
#define Fcb COMMON_BLOCK(FCB,fcb)
COMMON_BLOCK_DEF(FCB_DEF,Fcb);
FCB_DEF Fcb;
main() {
char cv[14];
static char cw[4][14] = {"C's w[0]", "C's w[1]", "C's w[2]", "C's w[3]"};
static char cx[2][3][14] = {{"C's x[0][0]", "C's x[0][1]", "C's x[0][2]"},
{"C's x[1][0]", "C's x[1][1]", "C's x[1][2]"}};
C2FCBSTR("C's V" ,Fcb.v,0);
C2FCBSTR(cw ,Fcb.w,1);
C2FCBSTR(cx ,Fcb.x,2);
FFCB();
FCB2CSTR(Fcb.v ,cv ,0);
FCB2CSTR(Fcb.w ,cw ,1);
FCB2CSTR(Fcb.x ,cx ,2);
printf("FFCB returns v = %s.\n",cv);
printf("FFCB returns w[1,2,3,4] = %s,%s,%s,%s.\n",cw[0],cw[1],cw[2],cw[3]);
printf("FFCB returns x[0,(1,2,3)] = %s,%s,%s.\n",cx[0][0],cx[0][1],cx[0][2]);
printf("FFCB returns x[1,(1,2,3)] = %s,%s,%s.\n",cx[1][0],cx[1][1],cx[1][2]);
return EXIT_SUCCESS;
}
#endif
#ifdef EQ_SELECT
PROTOCCALLSFSUB0(FEQ,feq)
#define FEQ() CCALLSFSUB0(FEQ,feq)
#define KWBANK 690
typedef struct {
int nzebra;
FORTRAN_REAL gversn,zversn;
int ixstor,ixdiv,ixcons;
FORTRAN_REAL fendq[16];
union {
struct {
int Lmain,Lr1;
union {FORTRAN_REAL Ws[KWBANK]; int Iws[2];}u;
}s;
union {
int Lq[80];
struct {
int dummy[8];
union {FORTRAN_REAL Q[2]; int Iq[2];}u;
}s;
}u;
}u;
} GCBANK_DEF;
#define lmain u.s.Lmain
#define lr1 u.s.Lr1
#define ws u.s.u.Ws
#define iws u.s.u.Iws
#define lq u.u.Lq
#define q u.u.s.u.Q
#define iq u.u.s.u.Iq
#define GCbank COMMON_BLOCK(GCBANK,gcbank)
COMMON_BLOCK_DEF(GCBANK_DEF,GCbank);
GCBANK_DEF GCbank;
main() {
FEQ();
printf("GCbank.nzebra = %d.\n", GCbank.nzebra);
printf("GCbank.gversn = %f.\n", GCbank.gversn);
printf("GCbank.zversn = %f.\n", GCbank.zversn);
printf("GCbank.ixstor = %d.\n", GCbank.ixstor);
printf("GCbank.ixcons = %d.\n", GCbank.ixcons);
printf("GCbank.fendq[15] = %f.\n", GCbank.fendq[15]);
printf("GCbank.lmain = %d.\n", GCbank.lmain);
printf("GCbank.lr1 = %d.\n", GCbank.lr1);
printf("GCbank.ws[KWBANK-1] = %f.\n", GCbank.ws[KWBANK-1]);
printf("GCbank.iq[0] = %d.\n", GCbank.iq[0]);
return EXIT_SUCCESS;
}
#undef lmain
#undef lr1
#undef ws
#undef iws
#undef lq
#undef q
#undef iq
#undef GCbank
#endif
/* The following functions, exist through cor, are called by FORTRAN functions,
as shown by the remaining examples. */
#ifdef CF_SAME_NAMESPACE
/*
VAX/VMS
HP-UX (without the f77 +ppu option. Ignore the undesirable -U option.)
IBMR2 (without the xlf -qextname option.)
AbsoftUNIXFortran default.
have C and FORTRAN sharing the same name space. The name space is
case-insensitive for VAX/VMS. There are several ways, some are described in
cfortran.doc, to meet this constraint, which is only a difficulty for C
routines to be called by FORTRAN.
The conflict is explicitly avoided, as shown, for the routines: ca, cb, cc, cd.
For VAX/VMS we need to change the name, (changing the case is not enough since
VAX/VMS is case insensitive. This is done implicitly via the defines given
below:
For the IBM, HP and AbsoftUNIXFortran,
we have chosen to name the C routines using a Proper Case notation, i.e:
Exist, Ce, Ccff, Ccg, Cch, Ci, Cj, Ck, Cl, Cm, Cn, Cvv, Cv7,
Cand, Cor, Cadd, Cfun, Pstru, Pstr, Cf14, Cf27.
instead of the usual C convention:
exist, ce, ccff, ccg, cch, ci, cj, ck, cl, cm, cn, cvv, cv7,
cand, cor, cadd, cfun, pstru, pstr, cf14, cf27.
IF 'Exist', ETC. ARE CHANGED TO LOWER CASE,
THIS DEMO WILL STILL RUN ON ALL MACHINES,
EXCEPT THE HP9000 (when not using f77 +ppu)
AND THE IBM RS/6000 (when not using f77 -qextname)
AND THE AbsoftUNIXFortran.
i.e. Only these two machines, when their Fortran compilers aren't forced to
append underscores, can require code to go against C naming norms.
*/
#ifdef vmsFortran
#define Exist EXIST_
/*#define ca CA_*/ /* We don't do this since we've decided to call the
routine ca from FORTRAN as CFORTRANCA. */
/*#define cb CB_*/ /* Similarly we call cb as CFCB. */
/*#define cc CC_*/ /* and cc as CFCC. */
/*#define cd CD_*/ /* and cd as CDCFORT. */
#define Ce CE_
#define Ccff CCFF_
#define Ccg CCG_
#define Cch CCH_
#define Ci CI_
#define Cj CJ_
#define Ck CK_
#define Cl CL_
#define Cm CM_
#define Cn CN_
#define Cvv CVV_
#define Cv7 CV7_
#define Cand CAND_
#define Cor COR_
#define Cadd CADD_
#define Cfun CFUN_
#define Pstru PSTRU_
#define Pstr PSTR_
#define Cf14 CF14_
#define Cf27 CF27_
#endif /* vmsFortran */
#endif /* CF_SAME_NAMESPACE */
void Exist() {printf("exist: was called.\n");}
FCALLSCSUB0(Exist,EXIST,exist)
void ca(i) int i; {printf("ca: had integer argument:%d.\n",i);}
FCALLSCSUB1(ca,CFORTRANCA,cfortranca, INT)
/* ^ ^-----------^---------FORTRAN name.
|__ C name. */
/* With the next 2 lines we tell cfortran.h that for the subsequent FCALLSCSUBn
and FCALLSCSUBn declarations, FORTRAN entry points to C routines have the
C name prefaced with the characters 'CF', i.e. whereas the
C name of the routine is 'cb', the routine is called from FORTRAN as 'CFCB'.
Similarly C's cc, is CFCC for FORTRAN. */
#undef fcallsc
#define fcallsc(UN,LN) preface_fcallsc(CF,cf,UN,LN)
void cb(i) int *i;
{printf("cb: had pointer argument to integer:%d.\n",*i); *i*=2;}
FCALLSCSUB1(cb,CB,cb, PINT)
void cc(s) char *s; {printf("cc: had string argument:%s.\n",s);}
FCALLSCSUB1(cc,CC,cc, STRING)
/* With the next 2 lines we tell cfortran.h that for the subsequent FCALLSCSUBn
and FCALLSCSUBn declarations, FORTRAN entry points to C routines have the
C name appended with the characters 'CFORT', i.e. whereas the C name of the
routine is 'cd', the routine is called from FORTRAN as 'CDCFORT'. */
#undef fcallsc
#define fcallsc(UN,LN) append_fcallsc(CFORT,cfort,UN,LN)
void cd(s) char *s;
{printf("cd: had string argument:%s.\n",s); strcpy(s,"to you 12345678");}
FCALLSCSUB1(cd,CD,cd, PSTRING)
#undef fcallsc
#define fcallsc(UN,LN) orig_fcallsc(UN,LN)
/* The preceeding line returns FORTRAN names to being the original C names. */
void Ce(v) char v[][5];
{printf("ce: had string vector argument:%s,%s,%s.\n",v[0],v[1],v[2]);}
#define ce_STRV_A1 TERM_CHARS(' ',1)
FCALLSCSUB1(Ce,CE,ce, STRINGV)
void Ccff(v, n) char v[][5]; int n;
{int i;
printf("ccff: had %d string vector argument:",n);
for (i=0; i<n-1; i++) printf("%s,",v[i]);
printf("%s.\n",v[i]);
}
#define ccff_STRV_A1 NUM_ELEM_ARG(2)
FCALLSCSUB2(Ccff,CCFF,ccff, STRINGV, INT)
int Ccg() {return 111;}
FCALLSCFUN0(INT,Ccg,CCG,ccg)
char *Cch() {return "hello";}
FCALLSCFUN0(STRING,Cch,CCH,cch)
char *Ci(v) char v[][5]; {return v[3];}
#define ci_STRV_A1 NUM_ELEMS(6)
FCALLSCFUN1(STRING,Ci,CI,ci, STRINGV)
char *Cj(v) int v; {printf("cj:v=%d\n",v);return "hello";}
FCALLSCFUN1(STRING,Cj,CJ,cj, INT)
FORTRAN_REAL Ck() {return 111.;}
FCALLSCFUN0(FLOAT,Ck,CK,ck)
DOUBLE_PRECISION Cl() {return 111.;}
FCALLSCFUN0(DOUBLE,Cl,CL,cl)
FORTRAN_REAL Cm(a) FORTRAN_REAL a; {return a;}
FCALLSCFUN1(FLOAT,Cm,CM,cm, FLOAT)
DOUBLE_PRECISION Cn(a,b) DOUBLE_PRECISION a; DOUBLE_PRECISION b; {return a+b;}
FCALLSCFUN2(DOUBLE,Cn,CN,cn, DOUBLE, DOUBLE)
void Cvv(d,f,i) DOUBLE_PRECISION d[2][2]; FORTRAN_REAL f[2][2]; int i[2][2];
{
int j,k; double t[2][2];
for (j=0; j<2; j++) for (k=0; k<2; k++) {
t[j][k] = d[j][k];
d[j][k] = f[j][k];
f[j][k] = i[j][k];
i[j][k] = t[j][k];
}
return;
}
FCALLSCSUB3(Cvv,CVV,cvv, DOUBLEVV, FLOATVV, INTVV)
DOUBLE_PRECISION Cv7(d) DOUBLE_PRECISION d[2][3][5][7][11][13][1];
{
DOUBLE_PRECISION t=0;
int i,j,k,l,m,n,o;
for ( i=0; i< 2; i++)
for ( j=0; j< 3; j++)
for ( k=0; k< 5; k++)
for ( l=0; l< 7; l++)
for ( m=0; m<11; m++)
for ( n=0; n<13; n++)
for (o=0; o< 1; o++) t += d[i][j][k][l][m][n][o];
return t;
}
FCALLSCFUN1(DOUBLE,Cv7,CV7,cv7, DOUBLEVVVVVVV)
int Cand(a,b) int a; int b; {return a && b;}
FCALLSCFUN2(LOGICAL,Cand,CAND,cand, LOGICAL, LOGICAL)
int Cor(a,b) int *a; int *b; {int t; t= *a;*a= *b;*b=t; return *a || *b;}
FCALLSCFUN2(LOGICAL,Cor,COR,cor, PLOGICAL, PLOGICAL)
void Pstru(s) char *s; { strcpy(s,"new pstring"); return;}
FCALLSCSUB1(Pstru,PSTRU,pstru, PSTRING)
void Pstr(s) char *s;
{
static char *save=NULL;
char *temp;
int ls, lsave;
/* If required, reset, or prepare to reset the saved location. */
if (!s || !save) { save=s; return; }
ls = strlen(s );
lsave = strlen(save);
temp = malloc(ls>lsave?ls:lsave);
/* Switch contents of argument with contents of saved string. */
strcpy(temp,save);
strcpy(save,s );
strcpy(s ,temp);
free(temp);
return;
}
/* Provide 3 interfaces using the the 3 types of PSTRING. */
FCALLSCSUB1(Pstr,PSTR,pstr, PSTRING)
FCALLSCSUB1(Pstr,PNSTR,pnstr, PNSTRING)
FCALLSCSUB1(Pstr,PPSTR,ppstr, PPSTRING)
void Cf14(a,b,c,d,e,f,g,h,i,j,k,l,m,n)
int *a,*b,*c,*d,*e,*f,*g,*h,*i,*j,*k,*l,*m,*n;
{ *a = 1; *b = 2; *c = 3; *d = 4; *e = 5; *f = 6; *g = 7;
*h = 8; *i = 9; *j = 10; *k = 11; *l = 12; *m = 13; *n = 14;
return;}
FCALLSCSUB14(Cf14,CF14,cf14, PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT)
void Cf27(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z,aa)
int *a,*b,*c,*d,*e,*f,*g,*h,*i,*j,*k,*l,*m,*n,*o,*p,*q,*r,*s,*t,*u,*v,*w,*x,*y,*z,*aa;
{ *a = 1; *b = 2; *c = 3; *d = 4; *e = 5; *f = 6; *g = 7;
*h = 8; *i = 9; *j = 10; *k = 11; *l = 12; *m = 13; *n = 14;
*o = 15; *p = 16; *q = 17; *r = 18; *s = 19; *t = 20; *u = 21;
*v = 22; *w = 23; *x = 24; *y = 25; *z = 26; *aa= 27;
return;}
FCALLSCSUB27(Cf27,CF27,cf27, PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT, \
PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT,PINT)
#ifdef F0_SELECT
PROTOCCALLSFSUB0(FEXIST,fexist)
#define FEXIST() CCALLSFSUB0(FEXIST,fexist)
main() {FEXIST(); return EXIT_SUCCESS;}
#endif
#ifdef FA_SELECT
PROTOCCALLSFSUB1(FA,fa, INT)
#define FA(A1) CCALLSFSUB1(FA,fa, INT, A1)
main() {FA(1234); return EXIT_SUCCESS;}
#endif
#ifdef FB_SELECT
PROTOCCALLSFSUB1(FB,fb, PINT)
#define FB(A1) CCALLSFSUB1(FB,fb, PINT, A1)
main()
{int i,ii; i=ii=1234;
FB(ii); printf("MAIN: FB(i=%d) returns with i=%d.\n",i,ii);
return EXIT_SUCCESS;
}
#endif
#ifdef FC_SELECT
PROTOCCALLSFSUB1(FC,fc, STRING)
#define FC(A1) CCALLSFSUB1(FC,fc, STRING, A1)
main() {FC("hello"); return EXIT_SUCCESS;}
#endif
#ifdef FD_SELECT
PROTOCCALLSFSUB1(FD,fd, PSTRING)
#define FD(A1) CCALLSFSUB1(FD,fd, PSTRING, A1)
main()
{static char i[] = "happy "; static char ii[] = "happy ";
FD(ii); printf("MAIN: FD(i=%s) returns with i=%s.\n",i,ii);
return EXIT_SUCCESS;
}
#endif
#ifdef FE_SELECT
PROTOCCALLSFSUB1(FE,fe, STRINGV)
#define FE(A1) CCALLSFSUB1(FE,fe, STRINGV, A1)
main()
{static char v[][5] = {"0000", "1", "22", ""}; FE(v); return EXIT_SUCCESS;}
#endif
#ifdef FF_SELECT
PROTOCCALLSFSUB2(FF,ff, STRINGV, INT)
#define FF(A1,A2) CCALLSFSUB2(FF,ff, STRINGV, INT, A1, A2)
main()
{static char v[][5] = {"0000", "1", "22", ""};
FF(v,sizeof(v)/sizeof v[0]);
return EXIT_SUCCESS;
}
#endif
#ifdef FG_SELECT
PROTOCCALLSFFUN0(INT,FG,fg)
#define FG() CCALLSFFUN0(FG,fg)
main()
{printf("FG() returns %d.\n",FG()); return EXIT_SUCCESS;}
#endif
#ifdef FH_SELECT
PROTOCCALLSFFUN0(STRING,FH,fh)
#define FH() CCALLSFFUN0(FH,fh)
main()
{printf("FH() returns %s.\n",FH()); return EXIT_SUCCESS;}
#endif
#ifdef FI_SELECT
PROTOCCALLSFFUN1(STRING,FI,fi,STRINGV)
#define FI(A1) CCALLSFFUN1(FI,fi, STRINGV, A1)
main()
{static char v[][5] = {"0000", "1", "22", "333", "8", "9"};
printf("FI(v) returns %s.\n",FI(v));
return EXIT_SUCCESS;
}
#endif
#ifdef FJ_SELECT
PROTOCCALLSFFUN1(STRING,FJ,fj,INT)
#define FJ(A1) CCALLSFFUN1(FJ,fj, INT, A1)
main()
{ printf("FJ(2) returns %s.\n",FJ(2)); return EXIT_SUCCESS;}
#endif
#ifdef FK_SELECT
PROTOCCALLSFFUN0(FLOAT,FK,fk)
#define FK() CCALLSFFUN0(FK,fk)
main()
{printf("FK() returns %f.\n",FK()); return EXIT_SUCCESS;}
#endif
#ifdef FL_SELECT
PROTOCCALLSFFUN0(DOUBLE,FL,fl)
#define FL() CCALLSFFUN0(FL,fl)
main()
{printf("FL() returns %f.\n",(double)FL()); return EXIT_SUCCESS;}
#endif /* ^- cast req.d for CRAY. */
#ifdef FM_SELECT
PROTOCCALLSFFUN1(FLOAT,FM,fm,FLOAT)
#define FM(A) CCALLSFFUN1(FM,fm, FLOAT, A)
main()
{printf("FM(111.) returns %f.\n",FM(111.)); return EXIT_SUCCESS;}
#endif
#ifdef FN_SELECT
PROTOCCALLSFFUN2(DOUBLE,FN,fn,DOUBLE,DOUBLE)
#define FN(A,B) CCALLSFFUN2(FN,fn, DOUBLE, DOUBLE, A, B)
main()
{printf("FN(1./3, 2./3) returns %f.\n",(double)FN(1./3, 2./3));
return EXIT_SUCCESS;
}
#endif /* ^- cast req.d for CRAY. */
#ifdef VV_SELECT
PROTOCCALLSFSUB3(VV,vv, DOUBLEVV, FLOATVV, INTVV)
#define VV(D,F,I) CCALLSFSUB3(VV,vv, DOUBLEVV, FLOATVV, INTVV, D, F, I)
main()
{
DOUBLE_PRECISION d[2][2];
FORTRAN_REAL f[2][2];
int i[2][2];
int j,k;
for (j=0; j<2; j++) for (k=0; k<2; k++) {
d[j][k] = 100+10*j+k;
f[j][k] = 200+10*j+k;
i[j][k] = 300+10*j+k;
}
VV(d,f,i);
/* \/- cast req.d for CRAY. */
printf("%4.0f%4.0f%4.0f%4.0f\n",(double)d[0][0],(double)d[0][1],
(double)d[1][0],(double)d[1][1]);
printf("%4.0f%4.0f%4.0f%4.0f\n",f[0][0],f[0][1],f[1][0],f[1][1]);
printf("%4d%4d%4d%4d\n" ,i[0][0],i[0][1],i[1][0],i[1][1]);
return EXIT_SUCCESS;
}
#endif
#ifdef V7_SELECT
PROTOCCALLSFFUN1(DOUBLE,V7,v7,DOUBLEVVVVVVV)
#define V7(D) CCALLSFFUN1(V7,v7, DOUBLEVVVVVVV, D)
main()
{
/* Original d[2][3][5][7][11][13][17] died a SEGV on DECstation MIPS cc 2.10,
just like e.g. main() {double d[2][3][5][7][11][13][17], t=0;} */
DOUBLE_PRECISION d[2][3][5][7][11][13][1], t=0, r=1, tf;
int i,j,k,l,m,n,o;
for ( i=0; i< 2; i++)
for ( j=0; j< 3; j++)
for ( k=0; k< 5; k++)
for ( l=0; l< 7; l++)
for ( m=0; m<11; m++)
for ( n=0; n<13; n++)
for (o=0; o< 1; o++) {
r /= 2;
t += r;
d[i][j][k][l][m][n][o] = r;
}
tf=V7(d);
printf("main() filled array d with a total: %10.9f\n", (double)t );
printf("V7() returned the value: %10.9f\n", (double)tf);
return EXIT_SUCCESS;
} /* cast req.d for CRAY -^ */
#endif
#ifdef FAND_SELECT
PROTOCCALLSFFUN2(LOGICAL,FAND,fand,LOGICAL,LOGICAL)
#define FAND(A,B) CCALLSFFUN2(FAND,fand, LOGICAL, LOGICAL, A, B)
main()
{printf("FAND(0, 1) returns %d.\n",FAND(0, 1)); return EXIT_SUCCESS;}
#endif
#ifdef FORR_SELECT
PROTOCCALLSFFUN2(LOGICAL,FORR,forr,PLOGICAL,PLOGICAL)
#define FORR(A,B) CCALLSFFUN2(FORR,forr, PLOGICAL, PLOGICAL, A, B)
main()
{int a=2, b=0; printf("Calling FORR(a=%d, b=%d).\n", a,b);
printf("FORR() returned %d.\n", FORR(a, b));
printf("With a=%d, b=%d.\n", a,b);
return EXIT_SUCCESS;
}
#endif
#include <string.h>
FCALLSCFUN2(STRING,strtok,CSTRTOK,cstrtok, STRING, STRING)
#ifdef STRTOK_SELECT
PROTOCCALLSFSUB0(FSTRTOK,fstrtok)
#define FSTRTOK() CCALLSFSUB0(FSTRTOK,fstrtok)
main() {FSTRTOK(); return EXIT_SUCCESS;}
#endif
#ifdef USER_SELECT
/* We define a new type USERINT. [Same functionality as PINT actually.] */
#ifdef OLD_VAXC /* To avoid %CC-I-PARAMNOTUSED. */
#pragma nostandard
#endif
#define USERINT_cfV( T,A,B,F) SIMPLE_cfV(T,A,B,F)
#define USERINT_cfSEP(T, B) SIMPLE_cfSEP(T,B)
#define USERINT_cfINT(N,A,B,X,Y,Z) SIMPLE_cfINT(N,A,B,X,Y,Z)
#define USERINT_cfSTR(N,T,A,B,C,D,E) SIMPLE_cfSTR(N,T,A,B,C,D,E)
#define USERINT_cfCC( T,A,B) SIMPLE_cfCC(T,A,B)
#define USERINT_cfAA( T,A,B) USERINT_cfB(T,A)
#define USERINT_cfU( T,A) USERINT_cfN(T,A)
#define USERINT_cfN( T,A) int *A
#define USERINT_cfB( T,A) &(A)
#ifdef OLD_VAXC /* Have avoided %CC-I-PARAMNOTUSED. */
#pragma standard
#endif
PROTOCCALLSFSUB2(EASY,easy, USERINT, INT)
#define EASY(A,B) CCALLSFSUB2(EASY,easy, USERINT, INT, A, B)
main() {
int a;
printf("\nUsing user defined USERINT argument type.\n");
EASY(a,7);
printf("The FORTRAN routine EASY(a,7) returns a = %d\n", a);
return EXIT_SUCCESS;
}
#endif
#ifdef FUN_SELECT /* Passing C or Fortran Functions to Fortran routines. */
PROTOCCALLSFFUN3(INT,FUNADD,funadd,ROUTINE,INT,INT)
#define FUNADD(F,A,B) CCALLSFFUN3(FUNADD,funadd, ROUTINE, INT, INT, F, A, B)
int Cadd(a,b) int a; int b; {return a+b;}
FCALLSCFUN2(INT,Cadd,CADD,cadd, INT, INT)
/* Want fadd to be prototyped, though don't need the wrapper that is created. */
PROTOCCALLSFFUN2(INT,FADD,fadd,INT,INT)
main() {
printf("\nFUNADD(CADD,1,2) returns %d\n",
FUNADD( C_FUNCTION(CADD,cadd),1,2) );
printf("\nFUNADD(FADD,3,4) returns %d\n",
FUNADD(FORTRAN_FUNCTION(FADD,fadd),3,4) );
return EXIT_SUCCESS;
}
#endif
#ifdef SUB_SELECT /* Fortran passes routines to C. */
PROTOCCALLSFSUB4(FUNARG,funarg, ROUTINE, INT, INT, PINT)
#define FUNARG(F,A,B,C) \
CCALLSFSUB4(FUNARG,funarg, ROUTINE, INT, INT, PINT, F, A, B, C)
int Cfun(f,a,b) int (*f)(); int a; int b; {int c; f(&a,&b,&c); return c;}
#undef ROUTINE_1
#define ROUTINE_1 (int (*)())
FCALLSCFUN3(INT,Cfun,CFUN,cfun, ROUTINE, INT, INT)
main() {
int c;
FUNARG(C_FUNCTION(CFUN,cfun),1,2,c);
printf("\nFUNARG(CFUN,1,2,c) returns with c=%d\n",c);
return EXIT_SUCCESS;
}
#endif
#undef ROUTINE_4
#ifdef VISUAL_CPLUSPLUS
#define ROUTINE_4 (int (*)(const void *,const void *))
#else
#define ROUTINE_4 (int (*)())
#endif
FCALLSCSUB4(qsort,FQSORT,fqsort, PVOID, INT, INT, ROUTINE)
/* Note that we've assumed in the above that size_t == int */
#ifdef Q_SELECT
PROTOCCALLSFSUB1(FQSORTEX,fqsortex, INT)
#define FQSORTEX(SIZEOF_INT) CCALLSFSUB1(FQSORTEX,fqsortex, INT, SIZEOF_INT)
main() {
#ifdef PowerStationFortran
printf("\n\
Apologies. As described in cfortran.doc, MSPS Fortran provides no\n\
easy way to pass a Fortran routine as an argument to a C routine,\n\
so this qsort() example crashes for MSPS Fortran.\n\
\n\
As a kludge, the example works on MSPS Fortran by either\n\
- using MSPS Fortran language extensions\n\
or\n\
- by removing the 'integer function cmp(a,b)' routine from cfortex.f\n\
and instead using the following C routine.\n\
int CMP( int *a, int *b) { return *a-*b ; }\n\
\n\
It remains a mystery why the SUB_SELECT example works\n\
for MSPS Fortran, since it should crash due to the same problem.\n\
Presumably the faulty stack clearing is not fatal for SUB_SELECT.\n\
\n");
#else
FQSORTEX(sizeof(int));
#endif
return EXIT_SUCCESS;
}
#endif
#ifdef E2_SELECT
/* Only to demo. that we can force a wrapper to be used for subroutines. */
PROTOCCALLSFFUN2(VOID,EASY,easy,PINT,INT)
#define EASY(A,B) CCALLSFFUN2(EASY,easy, PINT, INT, A, B)
main() {
int a;
printf("\nEASY (2) EXAMPLE\n");
EASY(a,7);
printf("The FORTRAN routine EASY(a,7) returns a = %d\n", a);
return EXIT_SUCCESS;
}
#endif
#ifdef FSTR_SELECT
PROTOCCALLSFSUB0(FSTR,fstr)
#define FSTR() CCALLSFSUB0(FSTR,fstr)
main() { FSTR(); return EXIT_SUCCESS;}
#endif
#ifdef CF14_SELECT
PROTOCCALLSFSUB14(F14,f14, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT)
#define F14(A,B,C,D,E,F,G,H,I,J,K,L,M,N) \
CCALLSFSUB14(F14,f14, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, A, B, C, D, E, F, G, H, I, J, K, L, M, N)
main() {
int a=0, b=0, c=0, d=0, e=0, f=0, g=0, h=0, i=0, j=0, k=0, l=0, m=0, n=0;
F14( a,b,c,d,e,f,g,h,i,j,k,l,m,n);
printf("CF14: %3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d.\n",
a,b,c,d,e,f,g,h,i,j,k,l,m,n);
return EXIT_SUCCESS;
}
#endif
#ifdef F20_SELECT
#if MAX_PREPRO_ARGS>31 && !defined(CFSUBASFUN)
PROTOCCALLSFSUB20(F20,f20, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT)
#define F20(A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P,Q,R,S,T) \
CCALLSFSUB20(F20,f20, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T)
main() {
int a=0, b=0, c=0, d=0, e=0, f=0, g=0, h=0, i=0, j=0, k=0, l=0, m=0, n=0,
o=0, p=0, q=0, r=0, s=0, t=0;
F20( a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t);
printf(" F20: %3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d.\n",
a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t);
return EXIT_SUCCESS;
}
#else
main() {
printf("Sorry 14 argument max. via cfortran.h for this C preprocessor or for CFSUBASFUN.\n");
return EXIT_SUCCESS;
}
#endif
#endif
#ifdef F27_SELECT
#if MAX_PREPRO_ARGS>31 && !defined(CFSUBASFUN)
PROTOCCALLSFSUB27(F27,f27, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT)
#define F27(A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P,Q,R,S,T,U,V,W,X,Y,Z,AA) \
CCALLSFSUB27(F27,f27, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, PINT, A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, AA)
main() {
int a=0, b=0, c=0, d=0, e=0, f=0, g=0, h=0, i=0, j=0, k=0, l=0, m=0, n=0,
o=0, p=0, q=0, r=0, s=0, t=0, u=0, v=0, w=0, x=0, y=0, z=0, aa=0;
F27( a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z,aa);
printf(" F27: %3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d%3d.\n",
a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z,aa);
return EXIT_SUCCESS;
}
#else
main() {
printf("Sorry 14 argument max. via cfortran.h for this C preprocessor or for CFSUBASFUN.\n");
return EXIT_SUCCESS;
}
#endif
#endif
#ifdef SZ1_SELECT
#define sz1_ELEMS_3 ZTRINGV_ARGS(4)
#define sz1_ELEMLEN_3 ZTRINGV_NUM(8)
PROTOCCALLSFSUB4(SZ1,sz1, STRINGV,INT,ZTRINGV,INT)
#define SZ1(S,IS,Z,IZ) CCALLSFSUB4(SZ1,sz1, STRINGV,INT,ZTRINGV,INT, S,IS,Z,IZ)
int main() {
char *p;
static char s[][7]={"000 ", " "} , os[][3]={"s"}, as[ ]="one element";
static char z[][9]={" ", "bb","ccc "}, oz[][9]={"z"}, az[6]="1234";
/*
- z[][9] must match ZTRINGV_NUM(8), while az[6] does not have to
since a single element argument may have the wrong length.
- For arrays of strings, can pass a pointer for ZTRINGV, but not for STRINGV.
i.e. Can't determine sizes for STRINGV, that's why we have ZTRINGV.
- NEITHER STRINGV nor ZTRINGV can accept an array of pointers, e.g.
NO: { char *p[3]; p[0]=z[0]; p[1]=z[1]; p[2]=z[2]; SZ1(s, 2, p, 3); }
*/
p = (char *)z;
SZ1(s , 2, p , 3);
SZ1(s[1], 1, z[1] , 1);
SZ1(os , 1, oz , 1);
SZ1(as , 1, az , 1);
SZ1("hi", 1, "hoho", 1);
return EXIT_SUCCESS;
}
#endif
#ifdef PZ_SELECT
#define pz_ELEMS_3 ZTRINGV_ARGS(4)
#define pz_ELEMLEN_3 ZTRINGV_NUM(8)
PROTOCCALLSFSUB4(PZ,pz, PSTRINGV,INT, PZTRINGV,INT)
#define PZ(S,IS,Z,IZ) CCALLSFSUB4(PZ,pz, PSTRINGV,INT, PZTRINGV,INT, S,IS,Z,IZ)
int main() {
char *p;
static char s[][7]={"000 ", " "} , as[] ="hihi";
static char z[][9]={" ", "bb","ccc "}, az[99]="hoho";
/*
- z[][9] must match ZTRINGV_NUM(8), while az[99] can match or be bigger,
since 8 character will be copied back.
- Comments in SZ1 example above for Z|STRINGV, also apply for PZ|STRINGV.
*/
p = (char *)z;
PZ(s,2,p,3);
PZ(s[1],1,z[2],1);
PZ(as,1,az,1);
PZ(as,1,az,1);
return EXIT_SUCCESS;
}
#endif
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