/*ident "@(#)cls4:src/error.c 1.6" */
/*******************************************************************************
C++ source for the C++ Language System, Release 3.0. This product
is a new release of the original cfront developed in the computer
science research center of AT&T Bell Laboratories.
Copyright (c) 1993 UNIX System Laboratories, Inc.
Copyright (c) 1991, 1992 AT&T and UNIX System Laboratories, Inc.
Copyright (c) 1984, 1989, 1990 AT&T. All Rights Reserved.
THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE of AT&T and UNIX System
Laboratories, Inc. The copyright notice above does not evidence
any actual or intended publication of such source code.
error.c :
write error messages
Until scan_started != 0 no context can be assumed
***************************************************************************/
#ifdef __cplusplus
#include <stdlib.h>
#endif
#include "cfront.h"
#include "size.h"
#include "template.h"
int error_count;
//static int no_of_warnings;
char scan_started;
#define ERRTRACE 20
static char* abbrev_tbl[] = {
" argument",
" base",
" class",
" declaration",
" expression",
" function",
" global",
"H",
" initialize",
#if EBCDIC
"", "", "", "", "", "", "", // fill out hole in ebcdic character set
#endif
"J",
" constructor", // 'K' !
" list",
" member",
" name",
" object",
" pointer",
" qualifie",
" reference",
#if EBCDIC
"", "", "", "", "", "", "", // fill out hole in ebcdic character set
#endif
" statement",
" type",
" undefined",
" variable",
" with",
" expected", // 'X'
" template", // 'Y'???
" parameter", // 'Z'???
};
ea* ea0;
//ea::ea(const void* pp) {
// p=pp;
//}
void error_init()
{
static char errbuf[BUFSIZ];
setbuf(stderr,errbuf);
ea0 = new ea;
}
#define INTERNAL 127
#ifdef TEST_SUITE
#define INTERNAL2 126
#define SORRY 125
#endif
void ext(int n)
{
int useit=n; // to avoid n not used warning during build
// for testing only
// if (n == INTERNAL)
// abort();
#ifdef TEST_SUITE
if (n == INTERNAL)
error_count = 99;
else if (n == SORRY)
error_count = 100;
#endif
fflush(out_file);
fflush(stderr);
exit(error_count?error_count:1);
}
/* static */
void print_loc()
{
loc* sl = (Cstmt) ? &Cstmt->where : 0;
loc* dl = (Cdcl && (Cdcl->base==NAME || Cdcl->base==TNAME)) ? &Cdcl->where : 0;
if (sl && dl && sl->file==dl->file) { // Cstmt and Cdcl in same file
if (sl->line<=dl->line) {
if (curloc.file==dl->file && curloc.line<dl->line)
// hack to compensate for YACC's
// bad manners in the use of line numbers
sl->put(out_file);
else
dl->put(out_file);
}
else
sl->put(out_file);
}
else if (sl && sl->file==curr_file) // Cstmt in current file
sl->put(out_file);
else if (dl && dl->file==curr_file) // Cdcl in current file
dl->put(out_file);
else
curloc.put(out_file);
}
static void print_context()
{
putc('\n',out_file);
}
static char in_error = 0;
static loc dummy_loc;
void yyerror(const char* s)
{
if(s && *s) {
#ifdef SVR42
// Convert any upper-case chars to lower-case. The yyerror()
// calls in SVR4.2 contain upper-case chars which would get
// translated in error() otherwise.
char* s2 = new char[(strlen(s)+1)];
const char* beg;
for(beg = strcpy(s2,s); *s2; ++s2){
if(*s2 >= 'A' && *s2 <= 'Z')
*s2 += ' ';
}
error(beg);
delete (char*)beg;
#else
error(s);
#endif
} else {
error("yyerror() called with null argument");
}
}
int error(const char* s)
{
return error(0,s);
}
int error(int t, const char* s)
{
return error(t,&dummy_loc,s,*ea0,*ea0,*ea0,*ea0);
}
int error(const char* s, const ea& a0, const ea& a1, const ea& a2, const ea& a3)
{
return error(0,&dummy_loc,s,a0,a1,a2,a3);
}
int error(loc* lc, const char* s, const ea& a0, const ea& a1, const ea& a2, const ea& a3)
{
return error(0,lc,s,a0,a1,a2,a3);
}
int error(int t, const char* s, const ea& a0, const ea& a1, const ea& a2, const ea& a3)
{
return error(t,&dummy_loc,s,a0,a1,a2,a3);
}
int suppress_error;
int error(int t, loc* lc, const char* s, const ea& a0, const ea& a1, const ea& a2, const ea& a3)
/*
"int" not "void" because of "pch" in lex.c
legal error types are:
not counted in error count:
'w' warning
'd' debug
'D' debug -- no prefix
'C' text -- line no. and no newline
'c' text -- no line no. and no newline
counted in error count:
's' "not implemented" message
'l' "compiler limit exceeded" message
0 error
'e' error -- no newline
'i' internal error (causes abort)
't' error while printing error message
*/
{
if (suppress_error && t!='i' && t!='d') return 0;
if (in_error++)
if (t == 't')
t = 'i';
else if (4 < in_error) {
fprintf(stderr,"\nOops!, error while handling error\n");
ext(13);
}
FILE * of = out_file;
out_file = stderr;
if (!scan_started || t=='t')
putch('\n');
else if (lc != &dummy_loc) {
if(t != 'D' && t != 'c') lc->put(out_file);
} else {
if(t != 'D' && t != 'c') print_loc();
}
int user_error = 0;
switch (t) {
case 'C':
case 'c':
break;
case 'e':
user_error = 1;
// no break
case 0:
putstring("error: ");
user_error += 1;
break;
case 'd':
putstring("DEBUG: ");
case 'D':
break;
case 'w':
// no_of_warnings++;
putstring("warning: ");
break;
case 'l':
putstring("compiler limit exceeded: ");
break;
case 's':
putstring("sorry, not implemented: ");
user_error = 1;
break;
case 'i':
if (error_count++) {
fprintf(out_file,"%s: cannot recover\n", prog_name);
out_file = of; // restore for fflush()
#ifdef TEST_SUITE
ext(INTERNAL2);
#else
ext(INTERNAL);
#endif
}
else
fprintf(out_file,"%s: internal error - ",prog_name);
}
ea argv[4];
ea* a = argv;
argv[0] = a0;
argv[1] = a1;
argv[2] = a2;
argv[3] = a3;
int c;
while (c = *s++) {
if ('A'<=c && c<='Z')
putstring(abbrev_tbl[c-'A']);
else if (c == '%') {
switch (c = *s++) {
case 'k': // TOK assumed passed as an int
{ TOK x = TOK(a->i);
if (0<x && x<=MAXTOK && keys[x])
fprintf(out_file," %s",keys[x]);
else
fprintf(out_file," token(%d)",x);
break;
}
case 't': // Ptype
{ Ptype tt = Ptype(a->p);
if (tt == 0) break;
putch(' ');
int nt = ntok;
emode = 1;
tt->dcl_print(0);
emode = 0;
ntok = nt;
break;
}
case 'n': // Pname
{ Pname nn = Pname(a->p);
if (nn && nn->string) {
// suppress generated class names:
if (nn->string[0]=='_'
&& nn->string[1]=='_'
&& nn->string[2]=='C') break;
emode = 1;
putch(' ');
nn->print();
emode = 0;
}
else
putstring(" ?");
break;
}
case 'p': // pointer
{ char* f = sizeof(char*)==sizeof(int)?" %d":" %ld";
fprintf(out_file,f,a->p);
break;
}
case 'a': // fully qualified function
{ Pname nn = Pname(a->p);
if (nn->tp->base!=FCT && nn->tp->base!=OVERLOAD)
error('i',"%n not function",nn);
if (nn && nn->string) {
// suppress generated class names:
if (nn->string[0]=='_'
&& nn->string[1]=='_'
&& nn->string[2]=='C') break;
emode = 1;
putch(' ');
nn->print(1);
emode = 0;
}
else
putstring(" ?");
break;
}
case 'c': // char assumed passed as an int
putch((int)a->i);
break;
case 'd': // int
fprintf(out_file," %d",a->i);
break;
case 'o': // int
fprintf(out_file," 0%o",a->i);
break;
case 's': // char*
{
char *s = ((char *)a->p);
if ( s ) putst((char*)a->p);
break;
}
}
a++;
}
else
putch(c);
}
/*
switch (t) {
case 'd':
case 't':
case 'w':
putch('\n');
break;
default:
*/
if (t != 'c' && t != 'e' && t != 'C')
print_context();
/*
}
*/
if (user_error)
basic_inst::head->print_error_loc(user_error==2);
out_file = of; // restore before ext() for fflush()
if (!scan_started && t!='d' && t!='w') ext(4);
// now we may want to carry on
switch (t) {
case 't':
if (--in_error) {
fflush(stderr);
//fflush(out_file);
return 0;
}
case 'i':
ext(INTERNAL);
case 0:
case 'e':
case 'l':
case 's':
#ifdef TEST_SUITE
if (t == 's')
ext(SORRY);
#endif
if (MAXERR<++error_count) {
fprintf(stderr,"%s: too many errors, giving up\n", prog_name);
ext(7);
}
}
in_error = 0;
fflush(stderr);
//fflush(out_file);
return 0;
}
#ifdef DBG
#define OPEREP(v) ((v)>MAXTOK || (v)<=0 ? 0 : keys[v])
void
display_type( Ptype t )
{
if ( t ) { putc(' ',stderr);
FILE * of = out_file;
out_file = stderr;
extern int ntok; int nt = ntok;
emode=1; (t)->dcl_print(0); emode=0;
if(!t->allocated)fprintf(stderr," UNALLOCATED!");
ntok = nt;
out_file = of;
} else fprintf(stderr," <null type>");
fflush(stderr);
}
#define INDENT(in) { for ( int i = in; i > 0; --i ) fprintf(stderr," "); }
static indent = 0;
void
display_context( dcl_context* p, char* label, int oneline )
{
int nt = ntok;
if ( label && *label ) fprintf(stderr,"%s: ",label);
fprintf(stderr,"dcl_context %d {\n",p);
++indent; INDENT(indent);
fprintf(stderr,"cot:"); display_type(p->cot);
fprintf(stderr,"\n");
display_expr(p->not,"not",oneline);
INDENT(indent); putstring("tot:"); display_type(p->tot);
fprintf(stderr,"\n");
display_expr(p->nof,"nof",oneline);
display_expr(p->c_this,"c_this",oneline);
INDENT(indent); fprintf(stderr,"ftbl %d\n",p->ftbl);
--indent;
fprintf(stderr,"}\n");
fflush(stderr);
}
void
display_expr( Pexpr ptr, char* label, int oneline )
{
INDENT(indent);
if ( label ) fprintf(stderr, "%s:", label);
if ( ptr == 0 ) {
fprintf(stderr, "NULL EXPR\n" );
fflush(stderr);
return;
}
fprintf(stderr,"%d",ptr->node::id);
if(!ptr->allocated)fprintf(stderr," UNALLOCATED!");
putc(':',stderr);
char* s = OPEREP(ptr->base);
if ( s == 0 )
fprintf(stderr, "token(%d)", ptr->base );
else
fprintf(stderr,"%s",s);
if ( ptr->displayed ) { // recursion!!!
switch ( ptr->base ) {
case NAME: case TNAME: case DTOR: case STRING:
case ICON: case FCON: case CCON:
fprintf(stderr," '%s'",(ptr->string)?ptr->string:"<0>");
break;
case IVAL:
fprintf(stderr, " i1==%d", ptr->i1);
break;
}
fprintf(stderr," RECURSION!!!\n");
ptr->displayed = 0;
fflush(stderr);
return;
}
ptr->displayed = 1;
switch ( ptr->base ) {
case QUEST:
display_type(ptr->tp);
putc('\n',stderr);
if ( !oneline ) {
++indent;
display_expr( ptr->cond, "cond" );
display_expr( ptr->e1, "e1" );
display_expr( ptr->e2, "e2" );
--indent;
}
break;
case REF: case DOT:
display_type(ptr->tp);
putc('\n',stderr);
if ( !oneline ) {
++indent;
display_expr( ptr->e1, "e1" );
display_expr( ptr->mem, "mem" );
display_expr( ptr->n_initializer, "n_initializer" );
--indent;
}
break;
case MDOT:
display_type(ptr->tp);
fprintf(stderr," string2:'%s'\n",ptr->string2?ptr->string2:"");
if ( !oneline ) {
++indent;
display_expr( ptr->mem, "mem" );
--indent;
}
break;
case ICALL:
fprintf(stderr," fn=='%s'",ptr->il->fct_name->string);
display_type(ptr->tp);
putc('\n',stderr);
if ( !oneline ) {
++indent;
for ( int i = 0; i < ptr->il->i_slots; ++i ) {
ia *aa = &ptr->il->i_args[i];
INDENT(indent);
fprintf(stderr,"arg:'%s'",aa->local&&aa->local->string?aa->local->string:"");
display_type(aa->tp);
putc('\n',stderr);
++indent;
display_expr( aa->arg, "actual" );
--indent;
}
display_expr( ptr->e1, "e1" );
display_expr( ptr->e2, "e2" );
--indent;
}
break;
case SIZEOF:
if ( ptr->tp2 ) {
putc('(',stderr);
display_type(ptr->tp2);
putc(')',stderr);
}
display_type(ptr->tp);
putc('\n',stderr);
if ( !oneline ) {
if ( ptr->e1 ) {
++indent;
display_expr(ptr->e1,"e1");
--indent;
}
if ( ptr->e2 ) {
++indent;
display_expr(ptr->e2,"e2");
--indent;
}
}
break;
case ZERO:
display_type(ptr->tp);
putc('\n',stderr);
break;
case DTOR:
fprintf(stderr," '%s'",(ptr->string)?ptr->string:"<0>");
display_type(ptr->tp);
if ( ptr->permanent ) fprintf(stderr, " (permanent)");
putc('\n',stderr);
if ( !oneline ) {
Pname n = Pname(ptr);
++indent;
INDENT(indent);
fprintf(stderr,"tp2"); display_type(ptr->tp2);
fprintf(stderr,"tpdef"); display_type(ptr->tpdef);
putc('\n',stderr);
INDENT(indent);
display_expr(n->n_qualifier,"n_qualifier" );
display_expr(n->n_dtag,"n_dtag" );
--indent;
}
break;
case NAME: case TNAME: case STRING:
case ICON: case FCON: case CCON:
case IVAL:
if ( ptr->base == IVAL ) fprintf(stderr, " i1==%d", ptr->i1);
else fprintf(stderr," '%s'",(ptr->string)?ptr->string:"<0>");
display_type(ptr->tp);
if(ptr->string2)fprintf(stderr," string2=='%s'",ptr->string2);
if ( ptr->permanent ) fprintf(stderr, " (permanent)");
putc('\n',stderr);
if ( !oneline && (ptr->base == NAME || ptr->base == TNAME) ) {
Pname n = Pname(ptr);
++indent;
INDENT(indent);
fprintf(stderr, "n_key==%d", n->n_key );
fprintf(stderr, " n_sto==%d", n->n_sto );
fprintf(stderr, " n_stclass==%d",n->n_stclass);
fprintf(stderr, " n_scope==%d",n->n_scope);
fprintf(stderr, " n_protected==%d\n", n->n_protect );
INDENT(indent);
fprintf(stderr, "n_oper=='%s'", (s=OPEREP(n->base))?s:"0");
fprintf(stderr, " n_val==%d", n->n_val );
fprintf(stderr, " n_xref==%d",n->n_xref);
fprintf(stderr, " lex_level==%d\n", n->lex_level );
INDENT(indent);
fprintf(stderr, " table==%d%d",n->n_table,n->n_table?n->n_table->t_name:0);
fprintf(stderr, " ktable==%d%d\n",n->n_ktable,n->n_ktable?n->n_ktable->k_name:0);
INDENT(indent);
fprintf(stderr, "n_used==%d",n->n_used);
fprintf(stderr, " n_assigned_to==%d",n->n_assigned_to);
fprintf(stderr, " n_addr_taken==%d\n",n->n_addr_taken );
INDENT(indent);
fprintf(stderr, "n_anon==%s", n->n_anon);
fprintf(stderr, " n_list=='%s'", n->n_list?n->n_list->string:"<0>" );
fprintf(stderr, " n_qualifier=='%s'", n->n_qualifier?n->n_qualifier->string:"<0>" );
if ( n->n_initializer ) {
fprintf(stderr, " n_initializer:\n" );
++indent;
display_expr( n->n_initializer );
--indent;
} else fprintf(stderr, " n_initializer==<0>\n");
--indent;
}
break;
case BLOCK:
((Pstmt)ptr)->where.put(stderr); putc(' ',stderr);
putc('\n',stderr);
break;
default:
display_type(ptr->tp);
putc('\n',stderr);
if ( !oneline && ptr->base > 0
&& (ptr->base<165 || ptr->base==MEMPTR) ) {
++indent;
display_expr( ptr->e1, "e1" );
display_expr( ptr->e2, "e2" );
--indent;
}
break;
}
ptr->displayed = 0;
fflush(stderr);
return;
}
void
display_stmt( Pstmt ptr, char* label, int oneline )
{
INDENT(indent);
if ( label ) fprintf(stderr, "%s:", label);
if ( ptr == 0 ) {
fprintf(stderr, "NULL STMT\n" );
fflush(stderr);
return;
}
fprintf(stderr,"%d",ptr->node::id);
if(!ptr->allocated)fprintf(stderr," UNALLOCATED!");
putc(':',stderr);
char* s = OPEREP(ptr->base);
if ( s == 0 )
fprintf(stderr, "token(%d)", ptr->base );
else
fprintf(stderr,"%s",s);
if ( ptr->displayed ) { // recursion!!!
if ( ptr->base == NAME )
fprintf(stderr," '%s'",Pname(ptr)->string);
fprintf(stderr," RECURSION!!!\n");
ptr->displayed = 0;
fflush(stderr);
return;
}
putc(' ',stderr);
ptr->where.put(stderr);
if ( oneline ) {
putc('\n',stderr);
fflush(stderr);
return;
}
ptr->displayed = 1;
switch ( ptr->base ) {
case BLOCK:
fprintf(stderr," .. ");
ptr->where2.put(stderr);
putc('\n',stderr);
++indent;
{ for( Pstmt st = ptr->s; st; st = st->s_list )
display_stmt( ptr->s, "s" );
}
--indent;
break;
case IF:
putc('\n',stderr);
++indent;
display_expr(ptr->e,"cond");
display_stmt(ptr->s,"if-clause");
--indent;
if ( ptr->else_stmt ) {
INDENT(indent);
fprintf(stderr,"else\n");
++indent;
display_stmt(ptr->else_stmt,"else-clause");
--indent;
}
break;
case DO:
putc('\n',stderr);
++indent;
display_stmt(ptr->s,"do-stmt");
display_expr(ptr->e,"cond");
--indent;
break;
case WHILE:
putc('\n',stderr);
++indent;
display_expr(ptr->e,"cond");
display_stmt(ptr->s,"while-stmt");
--indent;
break;
case FOR:
putc('\n',stderr);
++indent;
display_stmt(ptr->for_init,"init");
display_expr(ptr->e,"cond");
display_expr(ptr->e2,"incr");
display_stmt(ptr->s,"stmt");
--indent;
break;
case RETURN:
putc('\n',stderr);
++indent;
display_expr(ptr->e,"e");
--indent;
break;
case SM:
putc('\n',stderr);
++indent;
display_expr(ptr->e,"e");
--indent;
break;
default:
putc('\n',stderr);
break;
}
ptr->displayed = 0;
fflush(stderr);
return;
}
void
display_namelist( Plist nl, char* s, int verbose )
{
error('d',"namelist: %s",s?s:"");
++indent;
for ( Plist l = nl; l; l = l->l ) {
Pname n = l->f;
INDENT(indent);
fprintf(stderr," %d",n);
error('D'," %n %k n_key %d",n,n?n->tp->base:0,n?n->n_key:0);
if ( verbose ) {
++indent;
display_expr(n);
--indent;
}
}
--indent;
}
#endif
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