#include "sysdep1.h" /* here to get stat64 on some badly designed Linux systems */ #include "f2c.h" #ifdef KR_headers #define Const /*nothing*/ extern char *malloc(); #else #define Const const #undef abs #undef min #undef max #include "stdlib.h" #endif #include "fio.h" #include "fmt.h" /* for struct syl */ /* Compile this with -DNO_ISATTY if unistd.h does not exist or */ /* if it does not define int isatty(int). */ #ifdef NO_ISATTY #define isatty(x) 0 #else //#include #endif #ifdef __cplusplus extern "C" { #endif /*global definitions*/ unit f__units[MXUNIT]; /*unit table*/ flag f__init; /*0 on entry, 1 after initializations*/ cilist *f__elist; /*active external io list*/ icilist *f__svic; /*active internal io list*/ flag f__reading; /*1 if reading, 0 if writing*/ flag f__cplus,f__cblank; Const char *f__fmtbuf; flag f__external; /*1 if external io, 0 if internal */ #ifdef KR_headers int (*f__doed)(),(*f__doned)(); int (*f__doend)(),(*f__donewrec)(),(*f__dorevert)(); int (*f__getn)(); /* for formatted input */ void (*f__putn)(); /* for formatted output */ #else int (*f__getn)(void); /* for formatted input */ void (*f__putn)(int); /* for formatted output */ int (*f__doed)(struct syl*, char*, ftnlen),(*f__doned)(struct syl*); int (*f__dorevert)(void),(*f__donewrec)(void),(*f__doend)(void); #endif flag f__sequential; /*1 if sequential io, 0 if direct*/ flag f__formatted; /*1 if formatted io, 0 if unformatted*/ FILE *f__cf; /*current file*/ unit *f__curunit; /*current unit*/ int f__recpos; /*place in current record*/ OFF_T f__cursor, f__hiwater; int f__scale; char *f__icptr; /*error messages*/ Const char *F_err[] = { "error in format", /* 100 */ "illegal unit number", /* 101 */ "formatted io not allowed", /* 102 */ "unformatted io not allowed", /* 103 */ "direct io not allowed", /* 104 */ "sequential io not allowed", /* 105 */ "can't backspace file", /* 106 */ "null file name", /* 107 */ "can't stat file", /* 108 */ "unit not connected", /* 109 */ "off end of record", /* 110 */ "truncation failed in endfile", /* 111 */ "incomprehensible list input", /* 112 */ "out of free space", /* 113 */ "unit not connected", /* 114 */ "read unexpected character", /* 115 */ "bad logical input field", /* 116 */ "bad variable type", /* 117 */ "bad namelist name", /* 118 */ "variable not in namelist", /* 119 */ "no end record", /* 120 */ "variable count incorrect", /* 121 */ "subscript for scalar variable", /* 122 */ "invalid array section", /* 123 */ "substring out of bounds", /* 124 */ "subscript out of bounds", /* 125 */ "can't read file", /* 126 */ "can't write file", /* 127 */ "'new' file exists", /* 128 */ "can't append to file", /* 129 */ "non-positive record number", /* 130 */ "nmLbuf overflow" /* 131 */ }; #define MAXERR (sizeof(F_err)/sizeof(char *)+100) int #ifdef KR_headers f__canseek(f) FILE *f; /*SYSDEP*/ #else f__canseek(FILE *f) /*SYSDEP*/ #endif { #ifdef NON_UNIX_STDIO return !isatty(fileno(f)); #else struct STAT_ST x; if (FSTAT(fileno(f),&x) < 0) return(0); #ifdef S_IFMT switch(x.st_mode & S_IFMT) { case S_IFDIR: case S_IFREG: if(x.st_nlink > 0) /* !pipe */ return(1); else return(0); case S_IFCHR: if(isatty(fileno(f))) return(0); return(1); #ifdef S_IFBLK case S_IFBLK: return(1); #endif } #else #ifdef S_ISDIR /* POSIX version */ if (S_ISREG(x.st_mode) || S_ISDIR(x.st_mode)) { if(x.st_nlink > 0) /* !pipe */ return(1); else return(0); } if (S_ISCHR(x.st_mode)) { if(isatty(fileno(f))) return(0); return(1); } if (S_ISBLK(x.st_mode)) return(1); #else Help! How does fstat work on this system? #endif #endif return(0); /* who knows what it is? */ #endif } void #ifdef KR_headers f__fatal(n,s) char *s; #else f__fatal(int n, const char *s) #endif { if(n<100 && n>=0) perror(s); /*SYSDEP*/ else if(n >= (int)MAXERR || n < -1) { fprintf(stderr,"%s: illegal error number %d\n",s,n); } else if(n == -1) fprintf(stderr,"%s: end of file\n",s); else fprintf(stderr,"%s: %s\n",s,F_err[n-100]); if (f__curunit) { fprintf(stderr,"apparent state: unit %d ", (int)(f__curunit-f__units)); fprintf(stderr, f__curunit->ufnm ? "named %s\n" : "(unnamed)\n", f__curunit->ufnm); } else fprintf(stderr,"apparent state: internal I/O\n"); if (f__fmtbuf) fprintf(stderr,"last format: %s\n",f__fmtbuf); fprintf(stderr,"lately %s %s %s %s",f__reading?"reading":"writing", f__sequential?"sequential":"direct",f__formatted?"formatted":"unformatted", f__external?"external":"internal"); sig_die(" IO", 1); } /*initialization routine*/ VOID f_init(Void) { unit *p; f__init=1; p= &f__units[0]; p->ufd=stderr; p->useek=f__canseek(stderr); p->ufmt=1; p->uwrt=1; p = &f__units[5]; p->ufd=stdin; p->useek=f__canseek(stdin); p->ufmt=1; p->uwrt=0; p= &f__units[6]; p->ufd=stdout; p->useek=f__canseek(stdout); p->ufmt=1; p->uwrt=1; } int #ifdef KR_headers f__nowreading(x) unit *x; #else f__nowreading(unit *x) #endif { OFF_T loc; int ufmt, urw; extern char *f__r_mode[], *f__w_mode[]; if (x->urw & 1) goto done; if (!x->ufnm) goto cantread; ufmt = x->url ? 0 : x->ufmt; loc = FTELL(x->ufd); urw = 3; if (!FREOPEN(x->ufnm, f__w_mode[ufmt|2], x->ufd)) { urw = 1; if(!FREOPEN(x->ufnm, f__r_mode[ufmt], x->ufd)) { cantread: errno = 126; return 1; } } FSEEK(x->ufd,loc,SEEK_SET); x->urw = urw; done: x->uwrt = 0; return 0; } int #ifdef KR_headers f__nowwriting(x) unit *x; #else f__nowwriting(unit *x) #endif { OFF_T loc; int ufmt; extern char *f__w_mode[]; if (x->urw & 2) { if (x->urw & 1) FSEEK(x->ufd, (OFF_T)0, SEEK_CUR); goto done; } if (!x->ufnm) goto cantwrite; ufmt = x->url ? 0 : x->ufmt; if (x->uwrt == 3) { /* just did write, rewind */ if (!(f__cf = x->ufd = FREOPEN(x->ufnm,f__w_mode[ufmt],x->ufd))) goto cantwrite; x->urw = 2; } else { loc=FTELL(x->ufd); if (!(f__cf = x->ufd = FREOPEN(x->ufnm, f__w_mode[ufmt | 2], x->ufd))) { x->ufd = NULL; cantwrite: errno = 127; return(1); } x->urw = 3; FSEEK(x->ufd,loc,SEEK_SET); } done: x->uwrt = 1; return 0; } int #ifdef KR_headers err__fl(f, m, s) int f, m; char *s; #else err__fl(int f, int m, const char *s) #endif { if (!f) f__fatal(m, s); if (f__doend) (*f__doend)(); return errno = m; } #ifdef __cplusplus } #endif