/* Handle errors. Copyright (C) 2000-2018 Free Software Foundation, Inc. Contributed by Andy Vaught & Niels Kristian Bech Jensen This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ /* Handle the inevitable errors. A major catch here is that things flagged as errors in one match subroutine can conceivably be legal elsewhere. This means that error messages are recorded and saved for possible use later. If a line does not match a legal construction, then the saved error message is reported. */ #include "config.h" #include "system.h" #include "coretypes.h" #include "options.h" #include "gfortran.h" #include "diagnostic.h" #include "diagnostic-color.h" #include "tree-diagnostic.h" /* tree_diagnostics_defaults */ static int suppress_errors = 0; static bool warnings_not_errors = false; static int terminal_width; /* True if the error/warnings should be buffered. */ static bool buffered_p; static gfc_error_buffer error_buffer; /* These are always buffered buffers (.flush_p == false) to be used by the pretty-printer. */ static output_buffer *pp_error_buffer, *pp_warning_buffer; static int warningcount_buffered, werrorcount_buffered; /* Return true if there output_buffer is empty. */ static bool gfc_output_buffer_empty_p (const output_buffer * buf) { return output_buffer_last_position_in_text (buf) == NULL; } /* Go one level deeper suppressing errors. */ void gfc_push_suppress_errors (void) { gcc_assert (suppress_errors >= 0); ++suppress_errors; } static void gfc_error_opt (int opt, const char *gmsgid, va_list ap) ATTRIBUTE_GCC_GFC(2,0); static bool gfc_warning (int opt, const char *gmsgid, va_list ap) ATTRIBUTE_GCC_GFC(2,0); /* Leave one level of error suppressing. */ void gfc_pop_suppress_errors (void) { gcc_assert (suppress_errors > 0); --suppress_errors; } /* Determine terminal width (for trimming source lines in output). */ static int gfc_get_terminal_width (void) { return isatty (STDERR_FILENO) ? get_terminal_width () : INT_MAX; } /* Per-file error initialization. */ void gfc_error_init_1 (void) { terminal_width = gfc_get_terminal_width (); gfc_buffer_error (false); } /* Set the flag for buffering errors or not. */ void gfc_buffer_error (bool flag) { buffered_p = flag; } /* Add a single character to the error buffer or output depending on buffered_p. */ static void error_char (char) { /* FIXME: Unused function to be removed in a subsequent patch. */ } /* Copy a string to wherever it needs to go. */ static void error_string (const char *p) { while (*p) error_char (*p++); } /* Print a formatted integer to the error buffer or output. */ #define IBUF_LEN 60 static void error_uinteger (unsigned long int i) { char *p, int_buf[IBUF_LEN]; p = int_buf + IBUF_LEN - 1; *p-- = '\0'; if (i == 0) *p-- = '0'; while (i > 0) { *p-- = i % 10 + '0'; i = i / 10; } error_string (p + 1); } static void error_integer (long int i) { unsigned long int u; if (i < 0) { u = (unsigned long int) -i; error_char ('-'); } else u = i; error_uinteger (u); } static size_t gfc_widechar_display_length (gfc_char_t c) { if (gfc_wide_is_printable (c) || c == '\t') /* Printable ASCII character, or tabulation (output as a space). */ return 1; else if (c < ((gfc_char_t) 1 << 8)) /* Displayed as \x?? */ return 4; else if (c < ((gfc_char_t) 1 << 16)) /* Displayed as \u???? */ return 6; else /* Displayed as \U???????? */ return 10; } /* Length of the ASCII representation of the wide string, escaping wide characters as print_wide_char_into_buffer() does. */ static size_t gfc_wide_display_length (const gfc_char_t *str) { size_t i, len; for (i = 0, len = 0; str[i]; i++) len += gfc_widechar_display_length (str[i]); return len; } static int print_wide_char_into_buffer (gfc_char_t c, char *buf) { static const char xdigit[16] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; if (gfc_wide_is_printable (c) || c == '\t') { buf[1] = '\0'; /* Tabulation is output as a space. */ buf[0] = (unsigned char) (c == '\t' ? ' ' : c); return 1; } else if (c < ((gfc_char_t) 1 << 8)) { buf[4] = '\0'; buf[3] = xdigit[c & 0x0F]; c = c >> 4; buf[2] = xdigit[c & 0x0F]; buf[1] = 'x'; buf[0] = '\\'; return 4; } else if (c < ((gfc_char_t) 1 << 16)) { buf[6] = '\0'; buf[5] = xdigit[c & 0x0F]; c = c >> 4; buf[4] = xdigit[c & 0x0F]; c = c >> 4; buf[3] = xdigit[c & 0x0F]; c = c >> 4; buf[2] = xdigit[c & 0x0F]; buf[1] = 'u'; buf[0] = '\\'; return 6; } else { buf[10] = '\0'; buf[9] = xdigit[c & 0x0F]; c = c >> 4; buf[8] = xdigit[c & 0x0F]; c = c >> 4; buf[7] = xdigit[c & 0x0F]; c = c >> 4; buf[6] = xdigit[c & 0x0F]; c = c >> 4; buf[5] = xdigit[c & 0x0F]; c = c >> 4; buf[4] = xdigit[c & 0x0F]; c = c >> 4; buf[3] = xdigit[c & 0x0F]; c = c >> 4; buf[2] = xdigit[c & 0x0F]; buf[1] = 'U'; buf[0] = '\\'; return 10; } } static char wide_char_print_buffer[11]; const char * gfc_print_wide_char (gfc_char_t c) { print_wide_char_into_buffer (c, wide_char_print_buffer); return wide_char_print_buffer; } /* Show the file, where it was included, and the source line, give a locus. Calls error_printf() recursively, but the recursion is at most one level deep. */ static void error_printf (const char *, ...) ATTRIBUTE_GCC_GFC(1,2); static void show_locus (locus *loc, int c1, int c2) { gfc_linebuf *lb; gfc_file *f; gfc_char_t *p; int i, offset, cmax; /* TODO: Either limit the total length and number of included files displayed or add buffering of arbitrary number of characters in error messages. */ /* Write out the error header line, giving the source file and error location (in GNU standard "[file]:[line].[column]:" format), followed by an "included by" stack and a blank line. This header format is matched by a testsuite parser defined in lib/gfortran-dg.exp. */ lb = loc->lb; f = lb->file; error_string (f->filename); error_char (':'); error_integer (LOCATION_LINE (lb->location)); if ((c1 > 0) || (c2 > 0)) error_char ('.'); if (c1 > 0) error_integer (c1); if ((c1 > 0) && (c2 > 0)) error_char ('-'); if (c2 > 0) error_integer (c2); error_char (':'); error_char ('\n'); for (;;) { i = f->inclusion_line; f = f->up; if (f == NULL) break; error_printf (" Included at %s:%d:", f->filename, i); } error_char ('\n'); /* Calculate an appropriate horizontal offset of the source line in order to get the error locus within the visible portion of the line. Note that if the margin of 5 here is changed, the corresponding margin of 10 in show_loci should be changed. */ offset = 0; /* If the two loci would appear in the same column, we shift '2' one column to the right, so as to print '12' rather than just '1'. We do this here so it will be accounted for in the margin calculations. */ if (c1 == c2) c2 += 1; cmax = (c1 < c2) ? c2 : c1; if (cmax > terminal_width - 5) offset = cmax - terminal_width + 5; /* Show the line itself, taking care not to print more than what can show up on the terminal. Tabs are converted to spaces, and nonprintable characters are converted to a "\xNN" sequence. */ p = &(lb->line[offset]); i = gfc_wide_display_length (p); if (i > terminal_width) i = terminal_width - 1; while (i > 0) { static char buffer[11]; i -= print_wide_char_into_buffer (*p++, buffer); error_string (buffer); } error_char ('\n'); /* Show the '1' and/or '2' corresponding to the column of the error locus. Note that a value of -1 for c1 or c2 will simply cause the relevant number not to be printed. */ c1 -= offset; c2 -= offset; cmax -= offset; p = &(lb->line[offset]); for (i = 0; i < cmax; i++) { int spaces, j; spaces = gfc_widechar_display_length (*p++); if (i == c1) error_char ('1'), spaces--; else if (i == c2) error_char ('2'), spaces--; for (j = 0; j < spaces; j++) error_char (' '); } if (i == c1) error_char ('1'); else if (i == c2) error_char ('2'); error_char ('\n'); } /* As part of printing an error, we show the source lines that caused the problem. We show at least one, and possibly two loci; the two loci may or may not be on the same source line. */ static void show_loci (locus *l1, locus *l2) { int m, c1, c2; if (l1 == NULL || l1->lb == NULL) { error_printf ("\n"); return; } /* While calculating parameters for printing the loci, we consider possible reasons for printing one per line. If appropriate, print the loci individually; otherwise we print them both on the same line. */ c1 = l1->nextc - l1->lb->line; if (l2 == NULL) { show_locus (l1, c1, -1); return; } c2 = l2->nextc - l2->lb->line; if (c1 < c2) m = c2 - c1; else m = c1 - c2; /* Note that the margin value of 10 here needs to be less than the margin of 5 used in the calculation of offset in show_locus. */ if (l1->lb != l2->lb || m > terminal_width - 10) { show_locus (l1, c1, -1); show_locus (l2, -1, c2); return; } show_locus (l1, c1, c2); return; } /* Workhorse for the error printing subroutines. This subroutine is inspired by g77's error handling and is similar to printf() with the following %-codes: %c Character, %d or %i Integer, %s String, %% Percent %L Takes locus argument %C Current locus (no argument) If a locus pointer is given, the actual source line is printed out and the column is indicated. Since we want the error message at the bottom of any source file information, we must scan the argument list twice -- once to determine whether the loci are present and record this for printing, and once to print the error message after and loci have been printed. A maximum of two locus arguments are permitted. This function is also called (recursively) by show_locus in the case of included files; however, as show_locus does not resupply any loci, the recursion is at most one level deep. */ #define MAX_ARGS 10 static void ATTRIBUTE_GCC_GFC(2,0) error_print (const char *type, const char *format0, va_list argp) { enum { TYPE_CURRENTLOC, TYPE_LOCUS, TYPE_INTEGER, TYPE_UINTEGER, TYPE_LONGINT, TYPE_ULONGINT, TYPE_CHAR, TYPE_STRING, NOTYPE }; struct { int type; int pos; union { int intval; unsigned int uintval; long int longintval; unsigned long int ulongintval; char charval; const char * stringval; } u; } arg[MAX_ARGS], spec[MAX_ARGS]; /* spec is the array of specifiers, in the same order as they appear in the format string. arg is the array of arguments, in the same order as they appear in the va_list. */ char c; int i, n, have_l1, pos, maxpos; locus *l1, *l2, *loc; const char *format; loc = l1 = l2 = NULL; have_l1 = 0; pos = -1; maxpos = -1; n = 0; format = format0; for (i = 0; i < MAX_ARGS; i++) { arg[i].type = NOTYPE; spec[i].pos = -1; } /* First parse the format string for position specifiers. */ while (*format) { c = *format++; if (c != '%') continue; if (*format == '%') { format++; continue; } if (ISDIGIT (*format)) { /* This is a position specifier. For example, the number 12 in the format string "%12$d", which specifies the third argument of the va_list, formatted in %d format. For details, see "man 3 printf". */ pos = atoi(format) - 1; gcc_assert (pos >= 0); while (ISDIGIT(*format)) format++; gcc_assert (*format == '$'); format++; } else pos++; c = *format++; if (pos > maxpos) maxpos = pos; switch (c) { case 'C': arg[pos].type = TYPE_CURRENTLOC; break; case 'L': arg[pos].type = TYPE_LOCUS; break; case 'd': case 'i': arg[pos].type = TYPE_INTEGER; break; case 'u': arg[pos].type = TYPE_UINTEGER; break; case 'l': c = *format++; if (c == 'u') arg[pos].type = TYPE_ULONGINT; else if (c == 'i' || c == 'd') arg[pos].type = TYPE_LONGINT; else gcc_unreachable (); break; case 'c': arg[pos].type = TYPE_CHAR; break; case 's': arg[pos].type = TYPE_STRING; break; default: gcc_unreachable (); } spec[n++].pos = pos; } /* Then convert the values for each %-style argument. */ for (pos = 0; pos <= maxpos; pos++) { gcc_assert (arg[pos].type != NOTYPE); switch (arg[pos].type) { case TYPE_CURRENTLOC: loc = &gfc_current_locus; /* Fall through. */ case TYPE_LOCUS: if (arg[pos].type == TYPE_LOCUS) loc = va_arg (argp, locus *); if (have_l1) { l2 = loc; arg[pos].u.stringval = "(2)"; } else { l1 = loc; have_l1 = 1; arg[pos].u.stringval = "(1)"; } break; case TYPE_INTEGER: arg[pos].u.intval = va_arg (argp, int); break; case TYPE_UINTEGER: arg[pos].u.uintval = va_arg (argp, unsigned int); break; case TYPE_LONGINT: arg[pos].u.longintval = va_arg (argp, long int); break; case TYPE_ULONGINT: arg[pos].u.ulongintval = va_arg (argp, unsigned long int); break; case TYPE_CHAR: arg[pos].u.charval = (char) va_arg (argp, int); break; case TYPE_STRING: arg[pos].u.stringval = (const char *) va_arg (argp, char *); break; default: gcc_unreachable (); } } for (n = 0; spec[n].pos >= 0; n++) spec[n].u = arg[spec[n].pos].u; /* Show the current loci if we have to. */ if (have_l1) show_loci (l1, l2); if (*type) { error_string (type); error_char (' '); } have_l1 = 0; format = format0; n = 0; for (; *format; format++) { if (*format != '%') { error_char (*format); continue; } format++; if (ISDIGIT (*format)) { /* This is a position specifier. See comment above. */ while (ISDIGIT (*format)) format++; /* Skip over the dollar sign. */ format++; } switch (*format) { case '%': error_char ('%'); break; case 'c': error_char (spec[n++].u.charval); break; case 's': case 'C': /* Current locus */ case 'L': /* Specified locus */ error_string (spec[n++].u.stringval); break; case 'd': case 'i': error_integer (spec[n++].u.intval); break; case 'u': error_uinteger (spec[n++].u.uintval); break; case 'l': format++; if (*format == 'u') error_uinteger (spec[n++].u.ulongintval); else error_integer (spec[n++].u.longintval); break; } } error_char ('\n'); } /* Wrapper for error_print(). */ static void error_printf (const char *gmsgid, ...) { va_list argp; va_start (argp, gmsgid); error_print ("", _(gmsgid), argp); va_end (argp); } /* Clear any output buffered in a pretty-print output_buffer. */ static void gfc_clear_pp_buffer (output_buffer *this_buffer) { pretty_printer *pp = global_dc->printer; output_buffer *tmp_buffer = pp->buffer; pp->buffer = this_buffer; pp_clear_output_area (pp); pp->buffer = tmp_buffer; /* We need to reset last_location, otherwise we may skip caret lines when we actually give a diagnostic. */ global_dc->last_location = UNKNOWN_LOCATION; } /* This is just a helper function to avoid duplicating the logic of gfc_warning. */ static bool gfc_warning (int opt, const char *gmsgid, va_list ap) { va_list argp; va_copy (argp, ap); diagnostic_info diagnostic; rich_location rich_loc (line_table, UNKNOWN_LOCATION); bool fatal_errors = global_dc->fatal_errors; pretty_printer *pp = global_dc->printer; output_buffer *tmp_buffer = pp->buffer; gfc_clear_pp_buffer (pp_warning_buffer); if (buffered_p) { pp->buffer = pp_warning_buffer; global_dc->fatal_errors = false; /* To prevent -fmax-errors= triggering. */ --werrorcount; } diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_WARNING); diagnostic.option_index = opt; bool ret = diagnostic_report_diagnostic (global_dc, &diagnostic); if (buffered_p) { pp->buffer = tmp_buffer; global_dc->fatal_errors = fatal_errors; warningcount_buffered = 0; werrorcount_buffered = 0; /* Undo the above --werrorcount if not Werror, otherwise werrorcount is correct already. */ if (!ret) ++werrorcount; else if (diagnostic.kind == DK_ERROR) ++werrorcount_buffered; else ++werrorcount, --warningcount, ++warningcount_buffered; } va_end (argp); return ret; } /* Issue a warning. */ bool gfc_warning (int opt, const char *gmsgid, ...) { va_list argp; va_start (argp, gmsgid); bool ret = gfc_warning (opt, gmsgid, argp); va_end (argp); return ret; } /* Whether, for a feature included in a given standard set (GFC_STD_*), we should issue an error or a warning, or be quiet. */ notification gfc_notification_std (int std) { bool warning; warning = ((gfc_option.warn_std & std) != 0) && !inhibit_warnings; if ((gfc_option.allow_std & std) != 0 && !warning) return SILENT; return warning ? WARNING : ERROR; } /* Possibly issue a warning/error about use of a nonstandard (or deleted) feature. An error/warning will be issued if the currently selected standard does not contain the requested bits. Return false if an error is generated. */ bool gfc_notify_std (int std, const char *gmsgid, ...) { va_list argp; bool warning; const char *msg, *msg2; char *buffer; warning = ((gfc_option.warn_std & std) != 0) && !inhibit_warnings; if ((gfc_option.allow_std & std) != 0 && !warning) return true; if (suppress_errors) return warning ? true : false; switch (std) { case GFC_STD_F2018_DEL: msg = _("Fortran 2018 deleted feature:"); break; case GFC_STD_F2018_OBS: msg = _("Fortran 2018 obsolescent feature:"); break; case GFC_STD_F2018: msg = _("Fortran 2018:"); break; case GFC_STD_F2008_TS: msg = "TS 29113/TS 18508:"; break; case GFC_STD_F2008_OBS: msg = _("Fortran 2008 obsolescent feature:"); break; case GFC_STD_F2008: msg = "Fortran 2008:"; break; case GFC_STD_F2003: msg = "Fortran 2003:"; break; case GFC_STD_GNU: msg = _("GNU Extension:"); break; case GFC_STD_LEGACY: msg = _("Legacy Extension:"); break; case GFC_STD_F95_OBS: msg = _("Obsolescent feature:"); break; case GFC_STD_F95_DEL: msg = _("Deleted feature:"); break; default: gcc_unreachable (); } msg2 = _(gmsgid); buffer = (char *) alloca (strlen (msg) + strlen (msg2) + 2); strcpy (buffer, msg); strcat (buffer, " "); strcat (buffer, msg2); va_start (argp, gmsgid); if (warning) gfc_warning (0, buffer, argp); else gfc_error_opt (0, buffer, argp); va_end (argp); return (warning && !warnings_are_errors) ? true : false; } /* Called from output_format -- during diagnostic message processing to handle Fortran specific format specifiers with the following meanings: %C Current locus (no argument) %L Takes locus argument */ static bool gfc_format_decoder (pretty_printer *pp, text_info *text, const char *spec, int precision, bool wide, bool set_locus, bool hash, bool *quoted, const char **buffer_ptr) { switch (*spec) { case 'C': case 'L': { static const char *result[2] = { "(1)", "(2)" }; locus *loc; if (*spec == 'C') loc = &gfc_current_locus; else loc = va_arg (*text->args_ptr, locus *); gcc_assert (loc->nextc - loc->lb->line >= 0); unsigned int offset = loc->nextc - loc->lb->line; /* If location[0] != UNKNOWN_LOCATION means that we already processed one of %C/%L. */ int loc_num = text->get_location (0) == UNKNOWN_LOCATION ? 0 : 1; location_t src_loc = linemap_position_for_loc_and_offset (line_table, loc->lb->location, offset); text->set_location (loc_num, src_loc, true); pp_string (pp, result[loc_num]); return true; } default: /* Fall through info the middle-end decoder, as e.g. stor-layout.c etc. diagnostics can use the FE printer while the FE is still active. */ return default_tree_printer (pp, text, spec, precision, wide, set_locus, hash, quoted, buffer_ptr); } } /* Return a malloc'd string describing the kind of diagnostic. The caller is responsible for freeing the memory. */ static char * gfc_diagnostic_build_kind_prefix (diagnostic_context *context, const diagnostic_info *diagnostic) { static const char *const diagnostic_kind_text[] = { #define DEFINE_DIAGNOSTIC_KIND(K, T, C) (T), #include "gfc-diagnostic.def" #undef DEFINE_DIAGNOSTIC_KIND "must-not-happen" }; static const char *const diagnostic_kind_color[] = { #define DEFINE_DIAGNOSTIC_KIND(K, T, C) (C), #include "gfc-diagnostic.def" #undef DEFINE_DIAGNOSTIC_KIND NULL }; gcc_assert (diagnostic->kind < DK_LAST_DIAGNOSTIC_KIND); const char *text = _(diagnostic_kind_text[diagnostic->kind]); const char *text_cs = "", *text_ce = ""; pretty_printer *pp = context->printer; if (diagnostic_kind_color[diagnostic->kind]) { text_cs = colorize_start (pp_show_color (pp), diagnostic_kind_color[diagnostic->kind]); text_ce = colorize_stop (pp_show_color (pp)); } return build_message_string ("%s%s:%s ", text_cs, text, text_ce); } /* Return a malloc'd string describing a location. The caller is responsible for freeing the memory. */ static char * gfc_diagnostic_build_locus_prefix (diagnostic_context *context, expanded_location s) { pretty_printer *pp = context->printer; const char *locus_cs = colorize_start (pp_show_color (pp), "locus"); const char *locus_ce = colorize_stop (pp_show_color (pp)); return (s.file == NULL ? build_message_string ("%s%s:%s", locus_cs, progname, locus_ce ) : !strcmp (s.file, N_("")) ? build_message_string ("%s%s:%s", locus_cs, s.file, locus_ce) : context->show_column ? build_message_string ("%s%s:%d:%d:%s", locus_cs, s.file, s.line, s.column, locus_ce) : build_message_string ("%s%s:%d:%s", locus_cs, s.file, s.line, locus_ce)); } /* Return a malloc'd string describing two locations. The caller is responsible for freeing the memory. */ static char * gfc_diagnostic_build_locus_prefix (diagnostic_context *context, expanded_location s, expanded_location s2) { pretty_printer *pp = context->printer; const char *locus_cs = colorize_start (pp_show_color (pp), "locus"); const char *locus_ce = colorize_stop (pp_show_color (pp)); return (s.file == NULL ? build_message_string ("%s%s:%s", locus_cs, progname, locus_ce ) : !strcmp (s.file, N_("")) ? build_message_string ("%s%s:%s", locus_cs, s.file, locus_ce) : context->show_column ? build_message_string ("%s%s:%d:%d-%d:%s", locus_cs, s.file, s.line, MIN (s.column, s2.column), MAX (s.column, s2.column), locus_ce) : build_message_string ("%s%s:%d:%s", locus_cs, s.file, s.line, locus_ce)); } /* This function prints the locus (file:line:column), the diagnostic kind (Error, Warning) and (optionally) the relevant lines of code with annotation lines with '1' and/or '2' below them. With -fdiagnostic-show-caret (the default) it prints: [locus of primary range]: some code 1 Error: Some error at (1) With -fno-diagnostic-show-caret or if the primary range is not valid, it prints: [locus of primary range]: Error: Some error at (1) and (2) */ static void gfc_diagnostic_starter (diagnostic_context *context, diagnostic_info *diagnostic) { char * kind_prefix = gfc_diagnostic_build_kind_prefix (context, diagnostic); expanded_location s1 = diagnostic_expand_location (diagnostic); expanded_location s2; bool one_locus = diagnostic->richloc->get_num_locations () < 2; bool same_locus = false; if (!one_locus) { s2 = diagnostic_expand_location (diagnostic, 1); same_locus = diagnostic_same_line (context, s1, s2); } char * locus_prefix = (one_locus || !same_locus) ? gfc_diagnostic_build_locus_prefix (context, s1) : gfc_diagnostic_build_locus_prefix (context, s1, s2); if (!context->show_caret || diagnostic_location (diagnostic, 0) <= BUILTINS_LOCATION || diagnostic_location (diagnostic, 0) == context->last_location) { pp_set_prefix (context->printer, concat (locus_prefix, " ", kind_prefix, NULL)); free (locus_prefix); if (one_locus || same_locus) { free (kind_prefix); return; } /* In this case, we print the previous locus and prefix as: [locus]:[prefix]: (1) and we flush with a new line before setting the new prefix. */ pp_string (context->printer, "(1)"); pp_newline (context->printer); locus_prefix = gfc_diagnostic_build_locus_prefix (context, s2); pp_set_prefix (context->printer, concat (locus_prefix, " ", kind_prefix, NULL)); free (kind_prefix); free (locus_prefix); } else { pp_verbatim (context->printer, "%s", locus_prefix); free (locus_prefix); /* Fortran uses an empty line between locus and caret line. */ pp_newline (context->printer); diagnostic_show_locus (context, diagnostic->richloc, diagnostic->kind); /* If the caret line was shown, the prefix does not contain the locus. */ pp_set_prefix (context->printer, kind_prefix); } } static void gfc_diagnostic_start_span (diagnostic_context *context, expanded_location exploc) { char *locus_prefix; locus_prefix = gfc_diagnostic_build_locus_prefix (context, exploc); pp_verbatim (context->printer, "%s", locus_prefix); free (locus_prefix); pp_newline (context->printer); /* Fortran uses an empty line between locus and caret line. */ pp_newline (context->printer); } static void gfc_diagnostic_finalizer (diagnostic_context *context, diagnostic_info *diagnostic ATTRIBUTE_UNUSED) { pp_destroy_prefix (context->printer); pp_newline_and_flush (context->printer); } /* Immediate warning (i.e. do not buffer the warning) with an explicit location. */ bool gfc_warning_now_at (location_t loc, int opt, const char *gmsgid, ...) { va_list argp; diagnostic_info diagnostic; rich_location rich_loc (line_table, loc); bool ret; va_start (argp, gmsgid); diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_WARNING); diagnostic.option_index = opt; ret = diagnostic_report_diagnostic (global_dc, &diagnostic); va_end (argp); return ret; } /* Immediate warning (i.e. do not buffer the warning). */ bool gfc_warning_now (int opt, const char *gmsgid, ...) { va_list argp; diagnostic_info diagnostic; rich_location rich_loc (line_table, UNKNOWN_LOCATION); bool ret; va_start (argp, gmsgid); diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_WARNING); diagnostic.option_index = opt; ret = diagnostic_report_diagnostic (global_dc, &diagnostic); va_end (argp); return ret; } /* Internal warning, do not buffer. */ bool gfc_warning_internal (int opt, const char *gmsgid, ...) { va_list argp; diagnostic_info diagnostic; rich_location rich_loc (line_table, UNKNOWN_LOCATION); bool ret; va_start (argp, gmsgid); diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_WARNING); diagnostic.option_index = opt; ret = diagnostic_report_diagnostic (global_dc, &diagnostic); va_end (argp); return ret; } /* Immediate error (i.e. do not buffer). */ void gfc_error_now (const char *gmsgid, ...) { va_list argp; diagnostic_info diagnostic; rich_location rich_loc (line_table, UNKNOWN_LOCATION); error_buffer.flag = true; va_start (argp, gmsgid); diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_ERROR); diagnostic_report_diagnostic (global_dc, &diagnostic); va_end (argp); } /* Fatal error, never returns. */ void gfc_fatal_error (const char *gmsgid, ...) { va_list argp; diagnostic_info diagnostic; rich_location rich_loc (line_table, UNKNOWN_LOCATION); va_start (argp, gmsgid); diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_FATAL); diagnostic_report_diagnostic (global_dc, &diagnostic); va_end (argp); gcc_unreachable (); } /* Clear the warning flag. */ void gfc_clear_warning (void) { gfc_clear_pp_buffer (pp_warning_buffer); warningcount_buffered = 0; werrorcount_buffered = 0; } /* Check to see if any warnings have been saved. If so, print the warning. */ void gfc_warning_check (void) { if (! gfc_output_buffer_empty_p (pp_warning_buffer)) { pretty_printer *pp = global_dc->printer; output_buffer *tmp_buffer = pp->buffer; pp->buffer = pp_warning_buffer; pp_really_flush (pp); warningcount += warningcount_buffered; werrorcount += werrorcount_buffered; gcc_assert (warningcount_buffered + werrorcount_buffered == 1); pp->buffer = tmp_buffer; diagnostic_action_after_output (global_dc, warningcount_buffered ? DK_WARNING : DK_ERROR); diagnostic_check_max_errors (global_dc, true); } } /* Issue an error. */ static void gfc_error_opt (int opt, const char *gmsgid, va_list ap) { va_list argp; va_copy (argp, ap); bool saved_abort_on_error = false; if (warnings_not_errors) { gfc_warning (opt, gmsgid, argp); va_end (argp); return; } if (suppress_errors) { va_end (argp); return; } diagnostic_info diagnostic; rich_location richloc (line_table, UNKNOWN_LOCATION); bool fatal_errors = global_dc->fatal_errors; pretty_printer *pp = global_dc->printer; output_buffer *tmp_buffer = pp->buffer; gfc_clear_pp_buffer (pp_error_buffer); if (buffered_p) { /* To prevent -dH from triggering an abort on a buffered error, save abort_on_error and restore it below. */ saved_abort_on_error = global_dc->abort_on_error; global_dc->abort_on_error = false; pp->buffer = pp_error_buffer; global_dc->fatal_errors = false; /* To prevent -fmax-errors= triggering, we decrease it before report_diagnostic increases it. */ --errorcount; } diagnostic_set_info (&diagnostic, gmsgid, &argp, &richloc, DK_ERROR); diagnostic_report_diagnostic (global_dc, &diagnostic); if (buffered_p) { pp->buffer = tmp_buffer; global_dc->fatal_errors = fatal_errors; global_dc->abort_on_error = saved_abort_on_error; } va_end (argp); } void gfc_error_opt (int opt, const char *gmsgid, ...) { va_list argp; va_start (argp, gmsgid); gfc_error_opt (opt, gmsgid, argp); va_end (argp); } void gfc_error (const char *gmsgid, ...) { va_list argp; va_start (argp, gmsgid); gfc_error_opt (0, gmsgid, argp); va_end (argp); } /* This shouldn't happen... but sometimes does. */ void gfc_internal_error (const char *gmsgid, ...) { int e, w; va_list argp; diagnostic_info diagnostic; rich_location rich_loc (line_table, UNKNOWN_LOCATION); gfc_get_errors (&w, &e); if (e > 0) exit(EXIT_FAILURE); va_start (argp, gmsgid); diagnostic_set_info (&diagnostic, gmsgid, &argp, &rich_loc, DK_ICE); diagnostic_report_diagnostic (global_dc, &diagnostic); va_end (argp); gcc_unreachable (); } /* Clear the error flag when we start to compile a source line. */ void gfc_clear_error (void) { error_buffer.flag = 0; warnings_not_errors = false; gfc_clear_pp_buffer (pp_error_buffer); } /* Tests the state of error_flag. */ bool gfc_error_flag_test (void) { return error_buffer.flag || !gfc_output_buffer_empty_p (pp_error_buffer); } /* Check to see if any errors have been saved. If so, print the error. Returns the state of error_flag. */ bool gfc_error_check (void) { if (error_buffer.flag || ! gfc_output_buffer_empty_p (pp_error_buffer)) { error_buffer.flag = false; pretty_printer *pp = global_dc->printer; output_buffer *tmp_buffer = pp->buffer; pp->buffer = pp_error_buffer; pp_really_flush (pp); ++errorcount; gcc_assert (gfc_output_buffer_empty_p (pp_error_buffer)); pp->buffer = tmp_buffer; diagnostic_action_after_output (global_dc, DK_ERROR); diagnostic_check_max_errors (global_dc, true); return true; } return false; } /* Move the text buffered from FROM to TO, then clear FROM. Independently if there was text in FROM, TO is also cleared. */ static void gfc_move_error_buffer_from_to (gfc_error_buffer * buffer_from, gfc_error_buffer * buffer_to) { output_buffer * from = &(buffer_from->buffer); output_buffer * to = &(buffer_to->buffer); buffer_to->flag = buffer_from->flag; buffer_from->flag = false; gfc_clear_pp_buffer (to); /* We make sure this is always buffered. */ to->flush_p = false; if (! gfc_output_buffer_empty_p (from)) { const char *str = output_buffer_formatted_text (from); output_buffer_append_r (to, str, strlen (str)); gfc_clear_pp_buffer (from); } } /* Save the existing error state. */ void gfc_push_error (gfc_error_buffer *err) { gfc_move_error_buffer_from_to (&error_buffer, err); } /* Restore a previous pushed error state. */ void gfc_pop_error (gfc_error_buffer *err) { gfc_move_error_buffer_from_to (err, &error_buffer); } /* Free a pushed error state, but keep the current error state. */ void gfc_free_error (gfc_error_buffer *err) { gfc_clear_pp_buffer (&(err->buffer)); } /* Report the number of warnings and errors that occurred to the caller. */ void gfc_get_errors (int *w, int *e) { if (w != NULL) *w = warningcount + werrorcount; if (e != NULL) *e = errorcount + sorrycount + werrorcount; } /* Switch errors into warnings. */ void gfc_errors_to_warnings (bool f) { warnings_not_errors = f; } void gfc_diagnostics_init (void) { diagnostic_starter (global_dc) = gfc_diagnostic_starter; global_dc->start_span = gfc_diagnostic_start_span; diagnostic_finalizer (global_dc) = gfc_diagnostic_finalizer; diagnostic_format_decoder (global_dc) = gfc_format_decoder; global_dc->caret_chars[0] = '1'; global_dc->caret_chars[1] = '2'; pp_warning_buffer = new (XNEW (output_buffer)) output_buffer (); pp_warning_buffer->flush_p = false; /* pp_error_buffer is statically allocated. This simplifies memory management when using gfc_push/pop_error. */ pp_error_buffer = &(error_buffer.buffer); pp_error_buffer->flush_p = false; } void gfc_diagnostics_finish (void) { tree_diagnostics_defaults (global_dc); /* We still want to use the gfc starter and finalizer, not the tree defaults. */ diagnostic_starter (global_dc) = gfc_diagnostic_starter; diagnostic_finalizer (global_dc) = gfc_diagnostic_finalizer; global_dc->caret_chars[0] = '^'; global_dc->caret_chars[1] = '^'; }