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a68g-diagnostics.c

     
 //! @file a68g-diagnostics.c
 //! @author J. Marcel van der Veer
 
 //! @section Copyright
 //!
 //! This file is part of Algol68G - an Algol 68 compiler-interpreter.
 //! Copyright 2001-2025 J. Marcel van der Veer [algol68g@xs4all.nl].
 
 //! @section License
 //!
 //! This program 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 of the License, or 
 //! (at your option) any later version.
 //!
 //! This program 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 this program. If not, see [http://www.gnu.org/licenses/].
 
 //! @section Synopsis
 //!
 //! Error and warning routines.
 
 #include "a68g.h"
 #include "a68g-prelude.h"
 #include "a68g-transput.h"
 #include "a68g-parser.h"
 
 // Error handling routines.
 
 #define TABULATE(n) (8 * (n / 8 + 1) - n)
 
 //! @brief Return error test from errno.
 
 char *error_specification (void)
 {
   static BUFFER txt;
   if (errno == 0) {
     ASSERT (a68g_bufprt (txt, SNPRINTF_SIZE, "no information") >= 0);
   } else {
     ASSERT (a68g_bufprt (txt, SNPRINTF_SIZE, "%s", strerror (errno)) >= 0);
   }
   if (strlen (txt) > 0) {
     txt[0] = TO_LOWER (txt[0]);
   }
   return txt;
 }
 
 //! @brief Whether unprintable control character.
 
 BOOL_T unprintable (char ch)
 {
   return (BOOL_T) (!IS_PRINT (ch) && ch != TAB_CHAR);
 }
 
 //! @brief Format for printing control character.
 
 char *ctrl_char (int ch)
 {
   static char txt[SMALL_BUFFER_SIZE];
   ch = TO_UCHAR (ch);
   if (IS_CNTRL (ch) && IS_LOWER (ch + 96)) {
     ASSERT (a68g_bufprt (txt, (size_t) SMALL_BUFFER_SIZE, "\\^%c", ch + 96) >= 0);
   } else {
     ASSERT (a68g_bufprt (txt, (size_t) SMALL_BUFFER_SIZE, "\\%02x", (unt) ch) >= 0);
   }
   return txt;
 }
 
 //! @brief Widen single char to string.
 
 char *char_to_str (char ch)
 {
   static char txt[2];
   txt[0] = ch;
   txt[1] = NULL_CHAR;
   return txt;
 }
 
 //! @brief Pretty-print diagnostic.
 
 void pretty_diag (FILE_T f, char *p)
 {
   int line_width = (f == A68_STDERR || f == A68_STDOUT ? A68 (term_width) : MAX_TERM_WIDTH);
   int pos = 1;
   while (p[0] != NULL_CHAR) {
     char *q;
     int k;
 // Count the number of characters in token to print.
     if (IS_GRAPH (p[0])) {
       for (k = 0, q = p; q[0] != BLANK_CHAR && q[0] != NULL_CHAR && k <= line_width; q++, k++) {
         ;
       }
     } else {
       k = 1;
     }
 // Now see if there is space for the token.
     if (k > line_width) {
       k = 1;
     }
     if ((pos + k) >= line_width) {
       WRITE (f, NEWLINE_STRING);
       pos = 1;
     }
     for (; k > 0; k--, p++, pos++) {
       WRITE (f, char_to_str (p[0]));
     }
   }
   for (; p[0] == BLANK_CHAR; p++, pos++) {
     WRITE (f, char_to_str (p[0]));
   }
 }
 
 //! @brief Abnormal end.
 
 void abend (char *reason, char *info, char *file, int line)
 {
   ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "%s: exiting: %s: %d: %s", A68 (a68g_cmd_name), file, line, reason) >= 0);
   if (info != NO_TEXT) {
     a68g_bufcat (A68 (output_line), ", ", BUFFER_SIZE);
     a68g_bufcat (A68 (output_line), info, BUFFER_SIZE);
   }
   if (errno != 0) {
     a68g_bufcat (A68 (output_line), " (", BUFFER_SIZE);
     a68g_bufcat (A68 (output_line), error_specification (), BUFFER_SIZE);
     a68g_bufcat (A68 (output_line), ")", BUFFER_SIZE);
   }
   a68g_bufcat (A68 (output_line), "\n", BUFFER_SIZE);
   io_close_tty_line ();
   pretty_diag (A68_STDERR, A68 (output_line));
   a68g_exit (EXIT_FAILURE);
 }
 
 //! @brief Position in line .
 
 char *where_pos (LINE_T * p, NODE_T * q)
 {
   char *pos;
   if (q != NO_NODE && p == LINE (INFO (q))) {
     pos = CHAR_IN_LINE (INFO (q));
   } else {
     pos = STRING (p);
   }
   if (pos == NO_TEXT) {
     pos = STRING (p);
   }
   for (; IS_SPACE (pos[0]) && pos[0] != NULL_CHAR; pos++) {
     ;
   }
   if (pos[0] == NULL_CHAR) {
     pos = STRING (p);
   }
   return pos;
 }
 
 //! @brief Position in line where diagnostic points at.
 
 char *diag_pos (LINE_T * p, DIAGNOSTIC_T * d)
 {
   char *pos;
   if (WHERE (d) != NO_NODE && p == LINE (INFO (WHERE (d)))) {
     pos = CHAR_IN_LINE (INFO (WHERE (d)));
   } else {
     pos = STRING (p);
   }
   if (pos == NO_TEXT) {
     pos = STRING (p);
   }
   for (; IS_SPACE (pos[0]) && pos[0] != NULL_CHAR; pos++) {
     ;
   }
   if (pos[0] == NULL_CHAR) {
     pos = STRING (p);
   }
   return pos;
 }
 
 //! @brief Write source line to file with diagnostics.
 
 void write_source_line (FILE_T f, LINE_T * p, NODE_T * nwhere, int mask)
 {
   int line_width = (f == A68_STDERR || f == A68_STDOUT ? A68 (term_width) : MAX_TERM_WIDTH);
 // Terminate properly.
   if ((STRING (p))[strlen (STRING (p)) - 1] == NEWLINE_CHAR) {
     (STRING (p))[strlen (STRING (p)) - 1] = NULL_CHAR;
     if ((STRING (p))[strlen (STRING (p)) - 1] == CR_CHAR) {
       (STRING (p))[strlen (STRING (p)) - 1] = NULL_CHAR;
     }
   }
 // Print line number.
   if (f == A68_STDERR || f == A68_STDOUT) {
     io_close_tty_line ();
   } else {
     WRITE (f, NEWLINE_STRING);
   }
   if (NUMBER (p) == 0) {
     ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "      ") >= 0);
   } else {
     ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "%-5d ", NUMBER (p) % 100000) >= 0);
   }
   WRITE (f, A68 (output_line));
 // Pretty print line.
   char *c, *c0;
   c = c0 = STRING (p);
   int pos = 5, col = 1;
   int continuations = 0;
   BOOL_T line_ended = A68_FALSE;
   while (!line_ended) {
     int len = 0;
     char *new_pos = NO_TEXT;
     if (c[0] == NULL_CHAR) {
       a68g_bufcpy (A68 (output_line), "", BUFFER_SIZE);
       line_ended = A68_TRUE;
     } else {
       if (IS_GRAPH (c[0])) {
         char *c1;
         a68g_bufcpy (A68 (output_line), "", BUFFER_SIZE);
         for (c1 = c; IS_GRAPH (c1[0]) && len <= line_width - 5; c1++, len++) {
           a68g_bufcat (A68 (output_line), char_to_str (c1[0]), BUFFER_SIZE);
         }
         if (len > line_width - 5) {
           a68g_bufcpy (A68 (output_line), char_to_str (c[0]), BUFFER_SIZE);
           len = 1;
         }
         new_pos = &c[len];
         col += len;
       } else if (c[0] == TAB_CHAR) {
         int n = TABULATE (col);
         len = n;
         col += n;
         a68g_bufcpy (A68 (output_line), "", BUFFER_SIZE);
         while (n--) {
           a68g_bufcat (A68 (output_line), " ", BUFFER_SIZE);
         }
         new_pos = &c[1];
       } else if (unprintable (c[0])) {
         a68g_bufcpy (A68 (output_line), ctrl_char ((int) c[0]), BUFFER_SIZE);
         len = (int) strlen (A68 (output_line));
         new_pos = &c[1];
         col++;
       } else {
         a68g_bufcpy (A68 (output_line), char_to_str (c[0]), BUFFER_SIZE);
         len = 1;
         new_pos = &c[1];
         col++;
       }
     }
     if (!line_ended && (pos + len) <= line_width) {
 // Still room - print a character.
       WRITE (f, A68 (output_line));
       pos += len;
       c = new_pos;
     } else {
 // First see if there are diagnostics to be printed.
       BOOL_T y = A68_FALSE, z = A68_FALSE;
       DIAGNOSTIC_T *d = DIAGNOSTICS (p);
       if (d != NO_DIAGNOSTIC || nwhere != NO_NODE) {
         char *c1;
         for (c1 = c0; c1 != c; c1++) {
           y |= (BOOL_T) (nwhere != NO_NODE && p == LINE (INFO (nwhere)) ? c1 == where_pos (p, nwhere) : A68_FALSE);
           if (mask != A68_NO_DIAGNOSTICS) {
             for (d = DIAGNOSTICS (p); d != NO_DIAGNOSTIC; FORWARD (d)) {
               z = (BOOL_T) (z | (c1 == diag_pos (p, d)));
             }
           }
         }
       }
 // If diagnostics are to be printed then print marks.
       if (y || z) {
         DIAGNOSTIC_T *d2;
         char *c1;
         int col_2 = 1;
         WRITE (f, "\n      ");
         for (c1 = c0; c1 != c; c1++) {
           int k = 0, diags_at_this_pos = 0;
           for (d2 = DIAGNOSTICS (p); d2 != NO_DIAGNOSTIC; FORWARD (d2)) {
             if (c1 == diag_pos (p, d2)) {
               diags_at_this_pos++;
               k = NUMBER (d2);
             }
           }
           if (y == A68_TRUE && c1 == where_pos (p, nwhere)) {
             a68g_bufcpy (A68 (output_line), "-", BUFFER_SIZE);
           } else if (diags_at_this_pos != 0) {
             if (mask == A68_NO_DIAGNOSTICS) {
               a68g_bufcpy (A68 (output_line), " ", BUFFER_SIZE);
             } else if (diags_at_this_pos == 1) {
               ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "%c", digchar (k)) >= 0);
             } else {
               a68g_bufcpy (A68 (output_line), "*", BUFFER_SIZE);
             }
           } else {
             if (unprintable (c1[0])) {
               int n = (int) strlen (ctrl_char (c1[0]));
               col_2 += 1;
               a68g_bufcpy (A68 (output_line), "", BUFFER_SIZE);
               while (n--) {
                 a68g_bufcat (A68 (output_line), " ", BUFFER_SIZE);
               }
             } else if (c1[0] == TAB_CHAR) {
               int n = TABULATE (col_2);
               col_2 += n;
               a68g_bufcpy (A68 (output_line), "", BUFFER_SIZE);
               while (n--) {
                 a68g_bufcat (A68 (output_line), " ", BUFFER_SIZE);
               }
             } else {
               a68g_bufcpy (A68 (output_line), " ", BUFFER_SIZE);
               col_2++;
             }
           }
           WRITE (f, A68 (output_line));
         }
       }
 // Resume pretty printing of line.
       if (!line_ended) {
         continuations++;
         ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "\n.%1d   ", continuations) >= 0);
         WRITE (f, A68 (output_line));
         if (continuations >= 9) {
           WRITE (f, "...");
           line_ended = A68_TRUE;
         } else {
           c0 = c;
           pos = 5;
           col = 1;
         }
       }
     }
   }
 // Print the diagnostics.
   if (mask) {
     if (DIAGNOSTICS (p) != NO_DIAGNOSTIC) {
       DIAGNOSTIC_T *d;
       for (d = DIAGNOSTICS (p); d != NO_DIAGNOSTIC; FORWARD (d)) {
         if (mask == A68_RUNTIME_ERROR) {
           if (IS (d, A68_RUNTIME_ERROR) || IS (d, A68_MATH_ERROR) || (IS (d, A68_MATH_WARNING))) {
             WRITE (f, NEWLINE_STRING);
             pretty_diag (f, TEXT (d));
           }
         } else {
           WRITE (f, NEWLINE_STRING);
           pretty_diag (f, TEXT (d));
         }
       }
     }
   }
 }
 
 //! @brief Write diagnostics to STDOUT.
 
 void diagnostics_to_terminal (LINE_T * p, int sev)
 {
   for (; p != NO_LINE; FORWARD (p)) {
     if (DIAGNOSTICS (p) != NO_DIAGNOSTIC) {
       BOOL_T z = A68_FALSE;
       for (DIAGNOSTIC_T *d = DIAGNOSTICS (p); d != NO_DIAGNOSTIC; FORWARD (d)) {
         if (sev == A68_ALL_DIAGNOSTICS) {
           z = (BOOL_T) (z | (IS (d, A68_WARNING) || IS (d, A68_ERROR) || IS (d, A68_SYNTAX_ERROR) || IS (d, A68_MATH_ERROR) || IS (d, A68_RUNTIME_ERROR) || IS (d, A68_SCANNER_ERROR)));
         } else if (sev == A68_RUNTIME_ERROR) {
           z = (BOOL_T) (z | (IS (d, A68_RUNTIME_ERROR) || (IS (d, A68_MATH_ERROR))));
         }
       }
       if (z) {
         write_source_line (A68_STDERR, p, NO_NODE, sev);
       }
     }
   }
 }
 
 //! @brief Give an intelligible error and exit.
 
 void scan_error (LINE_T * u, char *v, char *txt)
 {
   if (errno != 0) {
     diagnostic (A68_SCANNER_ERROR, NO_NODE, txt, u, v, error_specification ());
   } else {
     diagnostic (A68_SCANNER_ERROR, NO_NODE, txt, u, v, ERROR_UNSPECIFIED);
   }
   longjmp (RENDEZ_VOUS (&A68_JOB), 1);
 }
 
 void scan_error_info (LINE_T * u, char *v, char *txt, char *info)
 {
   if (info != NO_TEXT) {
     size_t len = strlen (txt) + 3;
     char *txti = a68g_alloc(len, __FILE__, __LINE__);
     ABEND (txti == NO_TEXT, ERROR_OUT_OF_CORE, __func__);
     a68g_bufcpy (txti, txt, len);
     a68g_bufcat (txti, " Z", len);
     if (errno != 0) {
       diagnostic (A68_SCANNER_ERROR, NO_NODE, txti, u, v, info, error_specification ());
     } else {
       diagnostic (A68_SCANNER_ERROR, NO_NODE, txti, u, v, info, ERROR_UNSPECIFIED);
     }
     longjmp (RENDEZ_VOUS (&A68_JOB), 1);
   } else {
     scan_error(u, v, txt);
   }
 }
 
 //! @brief Give an intelligible warning.
 
 void scan_warning (LINE_T * u, char *v, char *txt)
 {
   if (errno != 0) {
     diagnostic (A68_SCANNER_WARNING, NO_NODE, txt, u, v, error_specification ());
   } else {
     diagnostic (A68_SCANNER_WARNING, NO_NODE, txt, u, v, ERROR_UNSPECIFIED);
   }
 }
 
 //! @brief Get severity text.
 
 char *get_severity (int sev)
 {
   switch (sev) {
   case A68_ERROR: {
       return "error";
     }
   case A68_SYNTAX_ERROR: {
       return "syntax error";
     }
   case A68_RUNTIME_ERROR: {
       return "runtime error";
     }
   case A68_MATH_ERROR: {
       return "math error";
     }
   case A68_MATH_WARNING: {
       return "math warning";
     }
   case A68_WARNING: {
       return "warning";
     }
   case A68_SCANNER_ERROR: {
       return "scanner error";
     }
   case A68_SCANNER_WARNING: {
       return "scanner warning";
     }
   default: {
       return NO_TEXT;
     }
   }
 }
 
 //! @brief Print diagnostic.
 
 void write_diagnostic (int sev, char *b)
 {
   char txt[SMALL_BUFFER_SIZE];
   char *severity = get_severity (sev);
   if (severity == NO_TEXT) {
     ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "%s: %s.", A68 (a68g_cmd_name), b) >= 0);
   } else {
     a68g_bufcpy (txt, get_severity (sev), SMALL_BUFFER_SIZE);
     ASSERT (a68g_bufprt (A68 (output_line), SNPRINTF_SIZE, "%s: %s: %s.", A68 (a68g_cmd_name), txt, b) >= 0);
   }
   io_close_tty_line ();
   pretty_diag (A68_STDERR, A68 (output_line));
 }
 
 //! @brief Add diagnostic to source line.
 
 void add_diagnostic (LINE_T * line, char *pos, NODE_T * p, int sev, char *b)
 {
 // Add diagnostic and choose GNU style or non-GNU style.
   DIAGNOSTIC_T *msg = (DIAGNOSTIC_T *) get_heap_space ((size_t) SIZE_ALIGNED (DIAGNOSTIC_T));
   DIAGNOSTIC_T **ref_msg;
   BUFFER a, nst;
   char st[SMALL_BUFFER_SIZE];
   char *severity = get_severity (sev);
   int k = 1;
   if (line == NO_LINE && p == NO_NODE) {
     return;
   }
   if (A68 (in_monitor)) {
     monitor_error (b, NO_TEXT);
     return;
   }
   nst[0] = NULL_CHAR;
   if (line == NO_LINE && p != NO_NODE) {
     line = LINE (INFO (p));
   }
   while (line != NO_LINE && NUMBER (line) == 0) {
     FORWARD (line);
   }
   if (line == NO_LINE) {
     return;
   }
   ref_msg = &(DIAGNOSTICS (line));
   while (*ref_msg != NO_DIAGNOSTIC) {
     ref_msg = &(NEXT (*ref_msg));
     k++;
   }
   if (p != NO_NODE) {
     NODE_T *n = NEST (p);
     if (n != NO_NODE && NSYMBOL (n) != NO_TEXT) {
       char *nt = non_terminal_string (A68 (edit_line), ATTRIBUTE (n));
       if (nt != NO_TEXT) {
         if (LINE_NUMBER (n) == 0) {
           ASSERT (a68g_bufprt (nst, SNPRINTF_SIZE, ", in %s", nt) >= 0);
         } else {
           if (MOID (n) != NO_MOID) {
             if (LINE_NUMBER (n) == NUMBER (line)) {
               ASSERT (a68g_bufprt (nst, SNPRINTF_SIZE, ", in %s %s starting at \"%.64s\" in this line", moid_to_string (MOID (n), MOID_ERROR_WIDTH, p), nt, NSYMBOL (n)) >= 0);
             } else {
               ASSERT (a68g_bufprt (nst, SNPRINTF_SIZE, ", in %s %s starting at \"%.64s\" in line %d", moid_to_string (MOID (n), MOID_ERROR_WIDTH, p), nt, NSYMBOL (n), LINE_NUMBER (n)) >= 0);
             }
           } else {
             if (LINE_NUMBER (n) == NUMBER (line)) {
               ASSERT (a68g_bufprt (nst, SNPRINTF_SIZE, ", in %s starting at \"%.64s\" in this line", nt, NSYMBOL (n)) >= 0);
             } else {
               ASSERT (a68g_bufprt (nst, SNPRINTF_SIZE, ", in %s starting at \"%.64s\" in line %d", nt, NSYMBOL (n), LINE_NUMBER (n)) >= 0);
             }
           }
         }
       }
     }
   }
   if (severity == NO_TEXT) {
     if (FILENAME (line) != NO_TEXT && strcmp (FILE_SOURCE_NAME (&A68_JOB), FILENAME (line)) == 0) {
       ASSERT (a68g_bufprt (a, SNPRINTF_SIZE, "%s: %x: %s", A68 (a68g_cmd_name), (unt) k, b) >= 0);
     } else if (FILENAME (line) != NO_TEXT) {
       ASSERT (a68g_bufprt (a, SNPRINTF_SIZE, "%s: %s: %x: %s", A68 (a68g_cmd_name), FILENAME (line), (unt) k, b) >= 0);
     } else {
       ASSERT (a68g_bufprt (a, SNPRINTF_SIZE, "%s: %x: %s", A68 (a68g_cmd_name), (unt) k, b) >= 0);
     }
   } else {
     a68g_bufcpy (st, get_severity (sev), SMALL_BUFFER_SIZE);
     if (FILENAME (line) != NO_TEXT && strcmp (FILE_SOURCE_NAME (&A68_JOB), FILENAME (line)) == 0) {
       ASSERT (a68g_bufprt (a, SNPRINTF_SIZE, "%s: %s: %x: %s", A68 (a68g_cmd_name), st, (unt) k, b) >= 0);
     } else if (FILENAME (line) != NO_TEXT) {
       ASSERT (a68g_bufprt (a, SNPRINTF_SIZE, "%s: %s: %s: %x: %s", A68 (a68g_cmd_name), FILENAME (line), st, (unt) k, b) >= 0);
     } else {
       ASSERT (a68g_bufprt (a, SNPRINTF_SIZE, "%s: %s: %x: %s", A68 (a68g_cmd_name), st, (unt) k, b) >= 0);
     }
   }
 // cppcheck might complain here but this memory is not returned, for obvious reasons.
   *ref_msg = msg;
   ATTRIBUTE (msg) = sev;
   if (nst[0] != NULL_CHAR) {
     a68g_bufcat (a, nst, BUFFER_SIZE);
   }
   a68g_bufcat (a, ".", BUFFER_SIZE);
   TEXT (msg) = new_string (a, NO_TEXT);
   WHERE (msg) = p;
   LINE (msg) = line;
   SYMBOL (msg) = pos;
   NUMBER (msg) = k;
   NEXT (msg) = NO_DIAGNOSTIC;
 }
 
 //! @brief Give a diagnostic message.
 
 void diagnostic (STATUS_MASK_T sev, NODE_T * p, char *loc_str, ...)
 {
   va_list args;
   MOID_T *moid = NO_MOID;
   char *t = loc_str, b[BUFFER_SIZE];
   BOOL_T force, compose = A68_TRUE, issue = A68_TRUE;
   va_start (args, loc_str);
   b[0] = NULL_CHAR;
   force = (BOOL_T) ((sev & A68_FORCE_DIAGNOSTICS) != 0);
   sev &= ~A68_FORCE_DIAGNOSTICS;
 // Node or line?
   LINE_T *line = NO_LINE;
   char *pos = NO_TEXT;
   if (p == NO_NODE) {
     line = va_arg (args, LINE_T *);
     pos = va_arg (args, char *);
   }
 // No warnings?
   if (!force && sev == A68_WARNING && OPTION_NO_WARNINGS (&A68_JOB)) {
     va_end (args);
     return;
   }
   if (!force && sev == A68_MATH_WARNING && OPTION_NO_WARNINGS (&A68_JOB)) {
     va_end (args);
     return;
   }
   if (sev == A68_WARNING && OPTION_QUIET (&A68_JOB)) {
     va_end (args);
     return;
   }
   if (sev == A68_MATH_WARNING && OPTION_QUIET (&A68_JOB)) {
     va_end (args);
     return;
   }
 // Suppressed?.
   if (sev == A68_ERROR || sev == A68_SYNTAX_ERROR) {
     if (ERROR_COUNT (&A68_JOB) == MAX_ERRORS) {
       a68g_bufcpy (b, "further diagnostics suppressed", BUFFER_SIZE);
       compose = A68_FALSE;
       sev = A68_ERROR;
     } else if (ERROR_COUNT (&A68_JOB) > MAX_ERRORS) {
       ERROR_COUNT (&A68_JOB)++;
       compose = issue = A68_FALSE;
     }
   } else if (sev == A68_WARNING || sev == A68_MATH_WARNING) {
     if (WARNING_COUNT (&A68_JOB) == MAX_ERRORS) {
       a68g_bufcpy (b, "further diagnostics suppressed", BUFFER_SIZE);
       compose = A68_FALSE;
     } else if (WARNING_COUNT (&A68_JOB) > MAX_ERRORS) {
       WARNING_COUNT (&A68_JOB)++;
       compose = issue = A68_FALSE;
     }
   }
   if (compose) {
 // Synthesize diagnostic message.
     if ((sev & A68_NO_SYNTHESIS) != NULL_MASK) {
       sev &= ~A68_NO_SYNTHESIS;
       a68g_bufcat (b, t, BUFFER_SIZE);
     } else {
 // Legend for special symbols:
 // * as first character, copy rest of string literally
 // # skip extra syntactical information
 // @ non terminal
 // A non terminal
 // B keyword
 // C context
 // D argument in decimal
 // H char argument
 // K 'LONG'
 // L line number
 // M moid - if error mode return without giving a message
 // N mode - M_NIL
 // O moid - operand
 // S quoted symbol, when possible with typographical display features
 // X expected attribute
 // Y string literal. 
 // Z quoted string literal. 
       if (t[0] == '*') {
         a68g_bufcat (b, &t[1], BUFFER_SIZE);
       } else
         while (t[0] != NULL_CHAR) {
           if (t[0] == '#') {
             ;
           } else if (t[0] == '@') {
             if (p == NO_NODE) {
               a68g_bufcat (b, "construct", BUFFER_SIZE);
             } else {
               char *nt = non_terminal_string (A68 (edit_line), ATTRIBUTE (p));
               if (t != NO_TEXT) {
                 a68g_bufcat (b, nt, BUFFER_SIZE);
               } else {
                 a68g_bufcat (b, "construct", BUFFER_SIZE);
               }
             }
           } else if (t[0] == 'A') {
             int att = va_arg (args, int);
             char *nt = non_terminal_string (A68 (edit_line), att);
             if (nt != NO_TEXT) {
               a68g_bufcat (b, nt, BUFFER_SIZE);
             } else {
               a68g_bufcat (b, "construct", BUFFER_SIZE);
             }
           } else if (t[0] == 'B') {
             int att = va_arg (args, int);
             KEYWORD_T *nt = find_keyword_from_attribute (A68 (top_keyword), att);
             if (nt != NO_KEYWORD) {
               a68g_bufcat (b, "\"", BUFFER_SIZE);
               a68g_bufcat (b, TEXT (nt), BUFFER_SIZE);
               a68g_bufcat (b, "\"", BUFFER_SIZE);
             } else {
               a68g_bufcat (b, "keyword", BUFFER_SIZE);
             }
           } else if (t[0] == 'C') {
             int att = va_arg (args, int);
             if (att == NO_SORT) {
               a68g_bufcat (b, "this", BUFFER_SIZE);
             }
             if (att == SOFT) {
               a68g_bufcat (b, "a soft", BUFFER_SIZE);
             } else if (att == WEAK) {
               a68g_bufcat (b, "a weak", BUFFER_SIZE);
             } else if (att == MEEK) {
               a68g_bufcat (b, "a meek", BUFFER_SIZE);
             } else if (att == FIRM) {
               a68g_bufcat (b, "a firm", BUFFER_SIZE);
             } else if (att == STRONG) {
               a68g_bufcat (b, "a strong", BUFFER_SIZE);
             }
           } else if (t[0] == 'D') {
             int a = va_arg (args, int);
             BUFFER d;
             BUFCLR (d);
             ASSERT (a68g_bufprt (d, SNPRINTF_SIZE, "%d", a) >= 0);
             a68g_bufcat (b, d, BUFFER_SIZE);
           } else if (t[0] == 'H') {
             char *a = va_arg (args, char *);
             char d[SMALL_BUFFER_SIZE];
             ASSERT (a68g_bufprt (d, (size_t) SMALL_BUFFER_SIZE, "\"%c\"", a[0]) >= 0);
             a68g_bufcat (b, d, BUFFER_SIZE);
           } else if (t[0] == 'K') {
             a68g_bufcat (b, "LONG", BUFFER_SIZE);
           } else if (t[0] == 'L') {
             LINE_T *a = va_arg (args, LINE_T *);
             char d[SMALL_BUFFER_SIZE];
             ABEND (a == NO_LINE, ERROR_INTERNAL_CONSISTENCY, __func__);
             if (NUMBER (a) == 0) {
               a68g_bufcat (b, "in standard environment", BUFFER_SIZE);
             } else {
               if (p != NO_NODE && NUMBER (a) == LINE_NUMBER (p)) {
                 ASSERT (a68g_bufprt (d, (size_t) SMALL_BUFFER_SIZE, "in this line") >= 0);
               } else {
                 ASSERT (a68g_bufprt (d, (size_t) SMALL_BUFFER_SIZE, "in line %d", NUMBER (a)) >= 0);
               }
               a68g_bufcat (b, d, BUFFER_SIZE);
             }
           } else if (t[0] == 'M') {
             moid = va_arg (args, MOID_T *);
             if (moid == NO_MOID || moid == M_ERROR) {
               moid = M_UNDEFINED;
             }
             if (IS (moid, SERIES_MODE)) {
               if (PACK (moid) != NO_PACK && NEXT (PACK (moid)) == NO_PACK) {
                 a68g_bufcat (b, moid_to_string (MOID (PACK (moid)), MOID_ERROR_WIDTH, p), BUFFER_SIZE);
               } else {
                 a68g_bufcat (b, moid_to_string (moid, MOID_ERROR_WIDTH, p), BUFFER_SIZE);
               }
             } else {
               a68g_bufcat (b, moid_to_string (moid, MOID_ERROR_WIDTH, p), BUFFER_SIZE);
             }
           } else if (t[0] == 'N') {
             a68g_bufcat (b, "NIL name of mode ", BUFFER_SIZE);
             moid = va_arg (args, MOID_T *);
             if (moid != NO_MOID) {
               a68g_bufcat (b, moid_to_string (moid, MOID_ERROR_WIDTH, p), BUFFER_SIZE);
             }
           } else if (t[0] == 'O') {
             moid = va_arg (args, MOID_T *);
             if (moid == NO_MOID || moid == M_ERROR) {
               moid = M_UNDEFINED;
             }
             if (moid == M_VOID) {
               a68g_bufcat (b, "UNION (VOID, ..)", BUFFER_SIZE);
             } else if (IS (moid, SERIES_MODE)) {
               if (PACK (moid) != NO_PACK && NEXT (PACK (moid)) == NO_PACK) {
                 a68g_bufcat (b, moid_to_string (MOID (PACK (moid)), MOID_ERROR_WIDTH, p), BUFFER_SIZE);
               } else {
                 a68g_bufcat (b, moid_to_string (moid, MOID_ERROR_WIDTH, p), BUFFER_SIZE);
               }
             } else {
               a68g_bufcat (b, moid_to_string (moid, MOID_ERROR_WIDTH, p), BUFFER_SIZE);
             }
           } else if (t[0] == 'S') {
             if (p != NO_NODE && NSYMBOL (p) != NO_TEXT) {
               char *txt = NSYMBOL (p);
               char *sym = NCHAR_IN_LINE (p);
               int n = 0, size = (int) strlen (txt);
               a68g_bufcat (b, "\"", BUFFER_SIZE);
               if (txt[0] != sym[0] || (int) strlen (sym) < size) {
                 a68g_bufcat (b, txt, BUFFER_SIZE);
               } else {
                 while (n < size) {
                   if (IS_PRINT (sym[0])) {
                     char str[2];
                     str[0] = sym[0];
                     str[1] = NULL_CHAR;
                     a68g_bufcat (b, str, BUFFER_SIZE);
                   }
                   if (TO_LOWER (txt[0]) == TO_LOWER (sym[0])) {
                     txt++;
                     n++;
                   }
                   sym++;
                 }
               }
               a68g_bufcat (b, "\"", BUFFER_SIZE);
             } else {
               a68g_bufcat (b, "symbol", BUFFER_SIZE);
             }
           } else if (t[0] == 'V') {
             a68g_bufcat (b, PACKAGE_STRING, BUFFER_SIZE);
           } else if (t[0] == 'X') {
             int att = va_arg (args, int);
             BUFFER z;
             (void) non_terminal_string (z, att);
             a68g_bufcat (b, new_string (z, NO_TEXT), BUFFER_SIZE);
           } else if (t[0] == 'Y') {
             char *loc_string = va_arg (args, char *);
             if (loc_string != NO_TEXT) {
               a68g_bufcat (b, loc_string, BUFFER_SIZE);
             }
           } else if (t[0] == 'Z') {
             char *loc_string = va_arg (args, char *);
             a68g_bufcat (b, "\"", BUFFER_SIZE);
             if (loc_string != NO_TEXT) {
               a68g_bufcat (b, loc_string, BUFFER_SIZE);
             }
             a68g_bufcat (b, "\"", BUFFER_SIZE);
           } else {
             char q[2];
             q[0] = t[0];
             q[1] = NULL_CHAR;
             a68g_bufcat (b, q, BUFFER_SIZE);
           }
           t++;
         }
 // Add information from errno, if any.
       if (errno != 0) {
         char *loc_str2 = new_string (error_specification (), NO_TEXT);
         if (loc_str2 != NO_TEXT) {
           char *stu;
           a68g_bufcat (b, ", ", BUFFER_SIZE);
           for (stu = loc_str2; stu[0] != NULL_CHAR; stu++) {
             stu[0] = (char) TO_LOWER (stu[0]);
           }
           a68g_bufcat (b, loc_str2, BUFFER_SIZE);
         }
       }
     }
   }
 // Construct a diagnostic message.
   if (issue) {
     if (sev == A68_WARNING) {
       WARNING_COUNT (&A68_JOB)++;
     } else {
       ERROR_COUNT (&A68_JOB)++;
     }
     if (p == NO_NODE) {
       if (line == NO_LINE) {
         write_diagnostic (sev, b);
       } else {
         add_diagnostic (line, pos, NO_NODE, sev, b);
       }
     } else {
       add_diagnostic (NO_LINE, NO_TEXT, p, sev, b);
       if (sev == A68_MATH_WARNING && p != NO_NODE && LINE (INFO (p)) != NO_LINE) {
         write_source_line (A68_STDERR, LINE (INFO (p)), p, A68_TRUE);
         WRITE (A68_STDERR, NEWLINE_STRING);
       }
     }
   }
   va_end (args);
 }
     

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