/* * Copyright (c) 1980 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #ifndef lint static char sccsid[] = "@(#)errorsubr.c 5.1 (Berkeley) 5/31/85"; #endif not lint #include #include #include "error.h" /* * Arrayify a list of rules */ arrayify(e_length, e_array, header) int *e_length; Eptr **e_array; Eptr header; { reg Eptr errorp; reg Eptr *array; reg int listlength; reg int listindex; for (errorp = header, listlength = 0; errorp; errorp = errorp->error_next, listlength++) continue; array = (Eptr*)Calloc(listlength+1, sizeof (Eptr)); for(listindex = 0, errorp = header; listindex < listlength; listindex++, errorp = errorp->error_next){ array[listindex] = errorp; errorp->error_position = listindex; } array[listindex] = (Eptr)0; *e_length = listlength; *e_array = array; } /*VARARGS1*/ error(msg, a1, a2, a3) char *msg; { fprintf(stderr, "Error: "); fprintf(stderr, msg, a1, a2, a3); fprintf(stderr, "\n"); fflush(stdout); fflush(stderr); exit(6); } /*ARGSUSED*/ char *Calloc(nelements, size) int nelements; int size; { char *back; if ( (back = (char *)calloc(nelements, size)) == (char *)NULL){ error("Ran out of memory.\n"); exit(1); } return(back); } char *strsave(instring) char *instring; { char *outstring; (void)strcpy(outstring = (char *)Calloc(1, strlen(instring) + 1), instring); return(outstring); } /* * find the position of a given character in a string * (one based) */ int position(string, ch) reg char *string; reg char ch; { reg int i; if (string) for (i=1; *string; string++, i++){ if (*string == ch) return(i); } return(-1); } /* * clobber the first occurance of ch in string by the new character */ char *substitute(string, chold, chnew) char *string; char chold, chnew; { reg char *cp = string; if (cp) while (*cp){ if (*cp == chold){ *cp = chnew; break; } cp++; } return(string); } char lastchar(string) char *string; { int length; if (string == 0) return('\0'); length = strlen(string); if (length >= 1) return(string[length-1]); else return('\0'); } char firstchar(string) char *string; { if (string) return(string[0]); else return('\0'); } char next_lastchar(string) char *string; { int length; if (string == 0) return('\0'); length = strlen(string); if (length >= 2) return(string[length - 2]); else return('\0'); } clob_last(string, newstuff) char *string, newstuff; { int length = 0; if (string) length = strlen(string); if (length >= 1) string[length - 1] = newstuff; } /* * parse a string that is the result of a format %s(%d) * return TRUE if this is of the proper format */ boolean persperdexplode(string, r_perd, r_pers) char *string; char **r_perd, **r_pers; { reg char *cp; int length = 0; if (string) length = strlen(string); if ( (length >= 4) && (string[length - 1] == ')' ) ){ for (cp = &string[length - 2]; (isdigit(*cp)) && (*cp != '('); --cp) continue; if (*cp == '('){ string[length - 1] = '\0'; /* clobber the ) */ *r_perd = strsave(cp+1); string[length - 1] = ')'; *cp = '\0'; /* clobber the ( */ *r_pers = strsave(string); *cp = '('; return(TRUE); } } return(FALSE); } /* * parse a quoted string that is the result of a format \"%s\"(%d) * return TRUE if this is of the proper format */ boolean qpersperdexplode(string, r_perd, r_pers) char *string; char **r_perd, **r_pers; { reg char *cp; int length = 0; if (string) length = strlen(string); if ( (length >= 4) && (string[length - 1] == ')' ) ){ for (cp = &string[length - 2]; (isdigit(*cp)) && (*cp != '('); --cp) continue; if (*cp == '(' && *(cp - 1) == '"'){ string[length - 1] = '\0'; *r_perd = strsave(cp+1); string[length - 1] = ')'; *(cp - 1) = '\0'; /* clobber the " */ *r_pers = strsave(string + 1); *(cp - 1) = '"'; return(TRUE); } } return(FALSE); } static char cincomment[] = CINCOMMENT; static char coutcomment[] = COUTCOMMENT; static char fincomment[] = FINCOMMENT; static char foutcomment[] = FOUTCOMMENT; static char newline[] = NEWLINE; static char piincomment[] = PIINCOMMENT; static char pioutcomment[] = PIOUTCOMMENT; static char lispincomment[] = LISPINCOMMENT; static char riincomment[] = RIINCOMMENT; static char rioutcomment[] = RIOUTCOMMENT; static char troffincomment[] = TROFFINCOMMENT; static char troffoutcomment[] = TROFFOUTCOMMENT; static char mod2incomment[] = MOD2INCOMMENT; static char mod2outcomment[] = MOD2OUTCOMMENT; struct lang_desc lang_table[] = { /*INUNKNOWN 0*/ "unknown", cincomment, coutcomment, /*INCPP 1*/ "cpp", cincomment, coutcomment, /*INCC 2*/ "cc", cincomment, coutcomment, /*INAS 3*/ "as", ASINCOMMENT, newline, /*INLD 4*/ "ld", cincomment, coutcomment, /*INLINT 5*/ "lint", cincomment, coutcomment, /*INF77 6*/ "f77", fincomment, foutcomment, /*INPI 7*/ "pi", piincomment, pioutcomment, /*INPC 8*/ "pc", piincomment, pioutcomment, /*INFRANZ 9*/ "franz",lispincomment, newline, /*INLISP 10*/ "lisp", lispincomment, newline, /*INVAXIMA 11*/ "vaxima",lispincomment,newline, /*INRATFOR 12*/ "ratfor",fincomment, foutcomment, /*INLEX 13*/ "lex", cincomment, coutcomment, /*INYACC 14*/ "yacc", cincomment, coutcomment, /*INAPL 15*/ "apl", ".lm", newline, /*INMAKE 16*/ "make", ASINCOMMENT, newline, /*INRI 17*/ "ri", riincomment, rioutcomment, /*INTROFF 18*/ "troff",troffincomment,troffoutcomment, /*INMOD2 19*/ "mod2", mod2incomment, mod2outcomment, 0, 0, 0 }; printerrors(look_at_subclass, errorc, errorv) boolean look_at_subclass; int errorc; Eptr errorv[]; { reg int i; reg Eptr errorp; for (errorp = errorv[i = 0]; i < errorc; errorp = errorv[++i]){ if (errorp->error_e_class == C_IGNORE) continue; if (look_at_subclass && errorp->error_s_class == C_DUPL) continue; printf("Error %d, (%s error) [%s], text = \"", i, class_table[errorp->error_e_class], lang_table[errorp->error_language].lang_name); wordvprint(stdout,errorp->error_lgtext,errorp->error_text); printf("\"\n"); } } wordvprint(fyle, wordc, wordv) FILE *fyle; int wordc; char *wordv[]; { int i; char *sep = ""; for(i = 0; i < wordc; i++) if (wordv[i]) { fprintf(fyle, "%s%s",sep,wordv[i]); sep = " "; } } /* * Given a string, parse it into a number of words, and build * a wordc wordv combination pointing into it. */ wordvbuild(string, r_wordc, r_wordv) char *string; int *r_wordc; char ***r_wordv; { reg char *cp; char *saltedbuffer; char **wordv; int wordcount; int wordindex; saltedbuffer = strsave(string); for (wordcount = 0, cp = saltedbuffer; *cp; wordcount++){ while (*cp && isspace(*cp)) cp++; if (*cp == 0) break; while (!isspace(*cp)) cp++; } wordv = (char **)Calloc(wordcount + 1, sizeof (char *)); for (cp=saltedbuffer,wordindex=0; wordcount; wordindex++,--wordcount){ while (*cp && isspace(*cp)) cp++; if (*cp == 0) break; wordv[wordindex] = cp; while(!isspace(*cp)) cp++; *cp++ = '\0'; } if (wordcount != 0) error("Initial miscount of the number of words in a line\n"); wordv[wordindex] = (char *)0; #ifdef FULLDEBUG for (wordcount = 0; wordcount < wordindex; wordcount++) printf("Word %d = \"%s\"\n", wordcount, wordv[wordcount]); printf("\n"); #endif *r_wordc = wordindex; *r_wordv = wordv; } /* * Compare two 0 based wordvectors */ int wordvcmp(wordv1, wordc, wordv2) char **wordv1; int wordc; char **wordv2; { reg int i; int back; for (i = 0; i < wordc; i++){ if (wordv1[i] == 0 || wordv2[i] == 0) return(-1); if (back = strcmp(wordv1[i], wordv2[i])){ return(back); } } return(0); /* they are equal */ } /* * splice a 0 basedword vector onto the tail of a * new wordv, allowing the first emptyhead slots to be empty */ char **wordvsplice(emptyhead, wordc, wordv) int emptyhead; int wordc; char **wordv; { reg char **nwordv; int nwordc = emptyhead + wordc; reg int i; nwordv = (char **)Calloc(nwordc, sizeof (char *)); for (i = 0; i < emptyhead; i++) nwordv[i] = 0; for(i = emptyhead; i < nwordc; i++){ nwordv[i] = wordv[i-emptyhead]; } return(nwordv); } /* * plural'ize and verb forms */ static char *S = "s"; static char *N = ""; char *plural(n) int n; { return( n > 1 ? S : N); } char *verbform(n) int n; { return( n > 1 ? N : S); }