/* E R R O R A N D D I A G N O S T I C R O U T I N E S */ /* This file contains the (non-portable) error-message and diagnostic giving functions. Be aware that they are called with a variable number of arguments! */ #ifndef NORCSID static char *RcsId = "$Header$"; #endif #include "errout.h" #include "debug.h" #include #include #include #include "input.h" #include "f_info.h" #include "LLlex.h" #include "main.h" #include "node.h" /* error classes */ #define ERROR 1 #define WARNING 2 #define LEXERROR 3 #define LEXWARNING 4 #define CRASH 5 #define FATAL 6 #ifdef DEBUG #define VDEBUG 7 #endif int err_occurred; extern char *symbol2str(); /* There are three general error-message functions: lexerror() lexical and pre-processor error messages error() syntactic and semantic error messages node_error() errors in nodes The difference lies in the place where the file name and line number come from. Lexical errors report from the global variables LineNumber and FileName, node errors get their information from the node, whereas other errors use the information in the token. */ #ifdef DEBUG /*VARARGS1*/ debug(fmt, args) char *fmt; { _error(VDEBUG, NULLNODE, fmt, &args); } #endif DEBUG /*VARARGS1*/ error(fmt, args) char *fmt; { _error(ERROR, NULLNODE, fmt, &args); } /*VARARGS2*/ node_error(node, fmt, args) struct node *node; char *fmt; { _error(ERROR, node, fmt, &args); } /*VARARGS1*/ warning(fmt, args) char *fmt; { _error(WARNING, NULLNODE, fmt, &args); } /*VARARGS2*/ node_warning(node, fmt, args) struct node *node; char *fmt; { _error(WARNING, node, fmt, &args); } /*VARARGS1*/ lexerror(fmt, args) char *fmt; { _error(LEXERROR, NULLNODE, fmt, &args); } /*VARARGS1*/ lexwarning(fmt, args) char *fmt; { _error(LEXWARNING, NULLNODE, fmt, &args); } /*VARARGS1*/ fatal(fmt, args) char *fmt; int args; { _error(FATAL, NULLNODE, fmt, &args); sys_stop(S_EXIT); } /*VARARGS1*/ crash(fmt, args) char *fmt; int args; { _error(CRASH, NULLNODE, fmt, &args); #ifdef DEBUG sys_stop(S_ABORT); #else sys_stop(S_EXIT); #endif } _error(class, node, fmt, argv) int class; struct node *node; char *fmt; int argv[]; { /* _error attempts to limit the number of error messages for a given line to MAXERR_LINE. */ static unsigned int last_ln = 0; unsigned int ln = 0; static char * last_fn = 0; static int e_seen = 0; register char *remark = 0; /* Since name and number are gathered from different places depending on the class, we first collect the relevant values and then decide what to print. */ /* preliminaries */ switch (class) { case ERROR: case LEXERROR: case CRASH: case FATAL: if (C_busy()) C_ms_err(); err_occurred = 1; break; case WARNING: case LEXWARNING: if (options['w']) return; break; } /* the remark */ switch (class) { case WARNING: case LEXWARNING: remark = "(warning)"; break; case CRASH: remark = "CRASH\007"; break; case FATAL: remark = "fatal error --"; break; #ifdef DEBUG case VDEBUG: remark = "(debug)"; break; #endif DEBUG } /* the place */ switch (class) { case WARNING: case ERROR: ln = node ? node->nd_lineno : dot.tk_lineno; break; case LEXWARNING: case LEXERROR: case CRASH: case FATAL: #ifdef DEBUG case VDEBUG: #endif DEBUG ln = LineNumber; break; } #ifdef DEBUG if (class != VDEBUG) { #endif if (FileName == last_fn && ln == last_ln) { /* we've seen this place before */ e_seen++; if (e_seen == MAXERR_LINE) fmt = "etc ..."; else if (e_seen > MAXERR_LINE) /* and too often, I'd say ! */ return; } else { /* brand new place */ last_ln = ln; last_fn = FileName; e_seen = 0; } #ifdef DEBUG } #endif DEBUG if (FileName) fprint(ERROUT, "\"%s\", line %u: ", FileName, ln); if (remark) fprint(ERROUT, "%s ", remark); doprnt(ERROUT, fmt, argv); /* contents of error */ fprint(ERROUT, "\n"); }