/* char id_fmt[] = "@(#)fmt.c 1.4"; * * fortran format parser */ #include "fio.h" #include "format.h" #define isdigit(x) (x>='0' && x<='9') #define isspace(s) (s==' ') #define skip(s) while(isspace(*s)) s++ #ifdef interdata #define SYLMX 300 #endif #ifdef pdp11 #define SYLMX 300 #endif #ifdef vax #define SYLMX 300 #endif struct syl syl[SYLMX]; int parenlvl,pc,revloc; char *f_s(), *f_list(), *i_tem(), *gt_num(), *ap_end(); pars_f(s) char *s; { parenlvl=revloc=pc=0; return((f_s(s,0)==FMTERR)? ERROR : OK); } char *f_s(s,curloc) char *s; { skip(s); if(*s++!='(') { fmtptr = s; return(FMTERR); } if(parenlvl++ ==1) revloc=curloc; op_gen(RET,curloc,0,0,s); if((s=f_list(s))==FMTERR) { return(FMTERR); } skip(s); return(s); } char *f_list(s) char *s; { while (*s) { skip(s); if((s=i_tem(s))==FMTERR) return(FMTERR); skip(s); if(*s==',') s++; else if(*s==')') { if(--parenlvl==0) { op_gen(REVERT,revloc,0,0,s); } else op_gen(GOTO,0,0,0,s); return(++s); } } fmtptr = s; return(FMTERR); } char *i_tem(s) char *s; { char *t; int n,curloc; if(*s==')') return(s); if(ne_d(s,&t)) return(t); if(e_d(s,&t)) return(t); s=gt_num(s,&n); curloc = op_gen(STACK,n,0,0,s); return(f_s(s,curloc)); } ne_d(s,p) char *s,**p; { int n,x,sign=0,pp1,pp2; switch(lcase(*s)) { case ':': op_gen(COLON,(int)('\n'),0,0,s); break; #ifndef KOSHER case '$': op_gen(DOLAR,(int)('\0'),0,0,s); break; /*** NOT STANDARD FORTRAN ***/ #endif case 'b': switch(lcase(*(s+1))) { case '\0': op_gen(BN,cblank,0,0,s); break; case 'z': s++; op_gen(BZ,1,0,0,s); break; case 'n': s++; default: op_gen(BN,0,0,0,s); break; } break; case 's': switch(lcase(*(s+1))) { case 'p': s++; x=SP; pp1=1; pp2=1; break; #ifndef KOSHER case 'u': s++; x=SU; pp1=0; pp2=0; break; /*** NOT STANDARD FORTRAN ***/ #endif case 's': s++; x=SS; pp1=0; pp2=1; break; default: x=S; pp1=0; pp2=1; break; } op_gen(x,pp1,pp2,0,s); break; case '/': op_gen(SLASH,0,0,0,s); break; case '-': sign=1; /* OUTRAGEOUS CODING */ case '+': s++; /* OUTRAGEOUS CODING */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': s=gt_num(s,&n); switch(lcase(*s)) { case 'p': if(sign) n= -n; op_gen(P,n,0,0,s); break; #ifndef KOSHER case 'r': if(n<=1) /*** NOT STANDARD FORTRAN ***/ { fmtptr = s; return(FMTERR); } op_gen(R,n,0,0,s); break; case 't': op_gen(T,0,n,0,s); break; /* NOT STANDARD FORT */ #endif case 'x': op_gen(X,n,0,0,s); break; case 'h': op_gen(H,n,(int)(s+1),0,s); s+=n; break; default: fmtptr = s; return(0); } break; case GLITCH: case '"': case '\'': op_gen(APOS,(int)s,0,0,s); *p = ap_end(s); return(FMTOK); case 't': switch(lcase(*(s+1))) { case 'l': s++; x=TL; break; case 'r': s++; x=TR; break; default: x=T; break; } if(isdigit(*(s+1))) {s=gt_num(s+1,&n); s--;} #ifndef KOSHER else n = 0; /* NOT STANDARD FORTRAN, should be error */ #endif #ifdef KOSHER fmtptr = s; return(FMTERR); #endif op_gen(x,n,1,0,s); break; case 'x': op_gen(X,1,0,0,s); break; case 'p': op_gen(P,0,0,0,s); break; #ifndef KOSHER case 'r': op_gen(R,10,1,0,s); break; /*** NOT STANDARD FORTRAN ***/ #endif default: fmtptr = s; return(0); } s++; *p=s; return(FMTOK); } e_d(s,p) char *s,**p; { int n,w,d,e,x=0; char *sv=s; char c; s=gt_num(s,&n); op_gen(STACK,n,0,0,s); c = lcase(*s); s++; switch(c) { case 'd': case 'e': case 'g': s = gt_num(s, &w); if (w==0) break; if(*s=='.') { s++; s=gt_num(s,&d); } else d=0; if(lcase(*s) == 'e' #ifndef KOSHER || *s == '.' /*** '.' is NOT STANDARD FORTRAN ***/ #endif ) { s++; s=gt_num(s,&e); if(c=='e') n=EE; else if(c=='d') n=DE; else n=GE; } else { e=2; if(c=='e') n=E; else if(c=='d') n=D; else n=G; } op_gen(n,w,d,e,s); break; case 'l': s = gt_num(s, &w); if (w==0) break; op_gen(L,w,0,0,s); break; case 'a': skip(s); if(*s>='0' && *s<='9') { s=gt_num(s,&w); if(w==0) break; op_gen(AW,w,0,0,s); break; } op_gen(A,0,0,0,s); break; case 'f': s = gt_num(s, &w); if (w==0) break; if(*s=='.') { s++; s=gt_num(s,&d); } else d=0; op_gen(F,w,d,0,s); break; case 'i': s = gt_num(s, &w); if (w==0) break; if(*s =='.') { s++; s=gt_num(s,&d); x = IM; } else { d = 1; x = I; } op_gen(x,w,d,0,s); break; default: pc--; /* unSTACK */ *p = sv; fmtptr = s; return(FMTERR); } *p = s; return(FMTOK); } op_gen(a,b,c,d,s) char *s; { struct syl *p= &syl[pc]; if(pc>=SYLMX) { fmtptr = s; fatal(F_ERFMT,"format too complex"); } #ifdef DEBUG fprintf(stderr,"%3d opgen: %d %d %d %d %c\n", pc,a,b,c,d,*s==GLITCH?'"':*s); /* for debug */ #endif p->op=a; p->p1=b; p->p2=c; p->p3=d; return(pc++); } char *gt_num(s,n) char *s; int *n; { int m=0,a_digit=NO; skip(s); while(isdigit(*s) || isspace(*s)) { if (isdigit(*s)) { m = 10*m + (*s)-'0'; a_digit = YES; } s++; } if(a_digit) *n=m; else *n=1; return(s); } char *ap_end(s) char *s; { char quote; quote = *s++; for(;*s;s++) { if(*s==quote && *++s!=quote) return(s); } fmtptr = s; fatal(F_ERFMT,"bad string"); }