/* editor syntax highlighting. Copyright (C) 1996, 1997, 1998 the Free Software Foundation Authors: 1998 Paul Sheer $Id$ 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 2 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, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. */ #include #if defined(MIDNIGHT) || defined(GTK) #include "edit.h" #else #include "coolwidget.h" #endif #if defined (HAVE_MAD) && ! defined (MIDNIGHT) && ! defined (GTK) #include "mad.h" #endif /* bytes */ #define SYNTAX_MARKER_DENSITY 512 /* Mispelled words are flushed from the syntax highlighting rules when they have been around longer than TRANSIENT_WORD_TIME_OUT seconds. At a cursor rate of 30 chars per second and say 3 chars + a space per word, we can accumulate 450 words absolute max with a value of 60. This is below this limit of 1024 words in a context. */ #define TRANSIENT_WORD_TIME_OUT 60 #define UNKNOWN_FORMAT "unknown" #if !defined(MIDNIGHT) || defined(HAVE_SYNTAXH) int option_syntax_highlighting = 1; int option_auto_spellcheck = 1; /* these three functions are called from the outside */ void edit_load_syntax (WEdit * edit, char **names, char *type); void edit_free_syntax_rules (WEdit * edit); void edit_get_syntax_color (WEdit * edit, long byte_index, int *fg, int *bg); #ifdef HAVE_MAD static void *mad_syntax_malloc (size_t x, char *file, int line) #define syntax_malloc(x) mad_syntax_malloc (x, __FILE__, __LINE__) #else static void *syntax_malloc (size_t x) #endif { void *p; #ifdef HAVE_MAD p = mad_alloc (x, file, line); #else p = malloc (x); #endif memset (p, 0, x); return p; } #define syntax_free(x) {if(x){free(x);(x)=0;}} static long compare_word_to_right (WEdit * edit, long i, char *text, char *whole_left, char *whole_right, int line_start) { unsigned char *p, *q; int c, d, j; if (!*text) return -1; c = edit_get_byte (edit, i - 1); if (line_start) if (c != '\n') return -1; if (whole_left) if (strchr (whole_left, c)) return -1; for (p = (unsigned char *) text, q = p + strlen ((char *) p); (unsigned long) p < (unsigned long) q; p++, i++) { switch (*p) { case '\001': p++; for (;;) { c = edit_get_byte (edit, i); if (!*p) if (whole_right) if (!strchr (whole_right, c)) break; if (c == *p) break; if (c == '\n') return -1; i++; } break; case '\002': p++; j = 0; for (;;) { c = edit_get_byte (edit, i); if (c == *p) { j = i; if (*p == *text && !p[1]) /* handle eg '+' and @+@ keywords properly */ break; } if (j && strchr ((char *) p + 1, c)) /* c exists further down, so it will get matched later */ break; if (c == '\n' || c == '\t' || c == ' ') { if (!*p) { i--; break; } if (!j) return -1; i = j; break; } if (whole_right) if (!strchr (whole_right, c)) { if (!*p) { i--; break; } if (!j) return -1; i = j; break; } i++; } break; case '\003': p++; c = -1; for (;; i++) { d = c; c = edit_get_byte (edit, i); for (j = 0; p[j] != '\003'; j++) if (c == p[j]) goto found_char2; break; found_char2: j = c; /* dummy command */ } i--; while (*p != '\003') p++; if (p[1] == d) i--; break; case '\004': p++; c = edit_get_byte (edit, i); for (; *p != '\004'; p++) if (c == *p) goto found_char3; return -1; found_char3: for (; *p != '\004'; p++); break; default: if (*p != edit_get_byte (edit, i)) return -1; } } if (whole_right) if (strchr (whole_right, edit_get_byte (edit, i))) return -1; return i; } #define XXX \ if (*s < '\005' || *s == (unsigned char) c) \ goto done; \ s++; static inline char *xx_strchr (const unsigned char *s, int c) { repeat: XXX XXX XXX XXX XXX XXX XXX XXX; XXX XXX XXX XXX XXX XXX XXX XXX; goto repeat; done: return (char *) s; } static inline struct syntax_rule apply_rules_going_right (WEdit * edit, long i, struct syntax_rule rule) { struct context_rule *r; int contextchanged = 0, c; int found_right = 0, found_left = 0, keyword_foundleft = 0, keyword_foundright = 0; int is_end; long end = 0; struct syntax_rule _rule = rule; if (!(c = edit_get_byte (edit, i))) return rule; is_end = (rule.end == (unsigned char) i); /* check to turn off a keyword */ if (_rule.keyword) { struct key_word *k; k = edit->rules[_rule.context]->keyword[_rule.keyword]; if (edit_get_byte (edit, i - 1) == '\n') _rule.keyword = 0; if (is_end) { _rule.keyword = 0; keyword_foundleft = 1; } } /* check to turn off a context */ if (_rule.context && !_rule.keyword) { long e; r = edit->rules[_rule.context]; if (r->first_right == c && !(rule.border & RULE_ON_RIGHT_BORDER) && (e = compare_word_to_right (edit, i, r->right, r->whole_word_chars_left, r->whole_word_chars_right, r->line_start_right)) > 0) { _rule.end = e; found_right = 1; _rule.border = RULE_ON_RIGHT_BORDER; if (r->between_delimiters) _rule.context = 0; } else if (is_end && rule.border & RULE_ON_RIGHT_BORDER) { /* always turn off a context at 4 */ found_left = 1; _rule.border = 0; if (!keyword_foundleft) _rule.context = 0; } else if (is_end && rule.border & RULE_ON_LEFT_BORDER) { /* never turn off a context at 2 */ found_left = 1; _rule.border = 0; } } /* check to turn on a keyword */ if (!_rule.keyword) { char *p; p = (r = edit->rules[_rule.context])->keyword_first_chars; while (*(p = xx_strchr ((unsigned char *) p + 1, c))) { struct key_word *k; int count; long e; count = (unsigned long) p - (unsigned long) r->keyword_first_chars; k = r->keyword[count]; e = compare_word_to_right (edit, i, k->keyword, k->whole_word_chars_left, k->whole_word_chars_right, k->line_start); if (e > 0) { end = e; _rule.end = e; _rule.keyword = count; keyword_foundright = 1; break; } } } /* check to turn on a context */ if (!_rule.context) { if (!found_left && is_end) { if (rule.border & RULE_ON_RIGHT_BORDER) { _rule.border = 0; _rule.context = 0; contextchanged = 1; _rule.keyword = 0; } else if (rule.border & RULE_ON_LEFT_BORDER) { r = edit->rules[_rule._context]; _rule.border = 0; if (r->between_delimiters) { long e; _rule.context = _rule._context; contextchanged = 1; _rule.keyword = 0; if (r->first_right == c && (e = compare_word_to_right (edit, i, r->right, r->whole_word_chars_left, r->whole_word_chars_right, r->line_start_right)) >= end) { _rule.end = e; found_right = 1; _rule.border = RULE_ON_RIGHT_BORDER; _rule.context = 0; } } } } if (!found_right) { int count; struct context_rule **rules = edit->rules; for (count = 1; rules[count]; count++) { r = rules[count]; if (r->first_left == c) { long e; e = compare_word_to_right (edit, i, r->left, r->whole_word_chars_left, r->whole_word_chars_right, r->line_start_left); if (e >= end && (!_rule.keyword || keyword_foundright)) { _rule.end = e; found_right = 1; _rule.border = RULE_ON_LEFT_BORDER; _rule._context = count; if (!r->between_delimiters) if (!_rule.keyword) _rule.context = count; break; } } } } } /* check again to turn on a keyword if the context switched */ if (contextchanged && !_rule.keyword) { char *p; p = (r = edit->rules[_rule.context])->keyword_first_chars; while (*(p = xx_strchr ((unsigned char *) p + 1, c))) { struct key_word *k; int count; long e; count = (unsigned long) p - (unsigned long) r->keyword_first_chars; k = r->keyword[count]; e = compare_word_to_right (edit, i, k->keyword, k->whole_word_chars_left, k->whole_word_chars_right, k->line_start); if (e > 0) { _rule.end = e; _rule.keyword = count; break; } } } return _rule; } static struct syntax_rule edit_get_rule (WEdit * edit, long byte_index) { long i; if (byte_index > edit->last_get_rule) { for (i = edit->last_get_rule + 1; i <= byte_index; i++) { edit->rule = apply_rules_going_right (edit, i, edit->rule); if (i > (edit->syntax_marker ? edit->syntax_marker->offset + SYNTAX_MARKER_DENSITY : SYNTAX_MARKER_DENSITY)) { struct _syntax_marker *s; s = edit->syntax_marker; edit->syntax_marker = syntax_malloc (sizeof (struct _syntax_marker)); edit->syntax_marker->next = s; edit->syntax_marker->offset = i; edit->syntax_marker->rule = edit->rule; } } } else if (byte_index < edit->last_get_rule) { struct _syntax_marker *s; for (;;) { if (!edit->syntax_marker) { memset (&edit->rule, 0, sizeof (edit->rule)); for (i = -1; i <= byte_index; i++) edit->rule = apply_rules_going_right (edit, i, edit->rule); break; } if (byte_index >= edit->syntax_marker->offset) { edit->rule = edit->syntax_marker->rule; for (i = edit->syntax_marker->offset + 1; i <= byte_index; i++) edit->rule = apply_rules_going_right (edit, i, edit->rule); break; } s = edit->syntax_marker->next; syntax_free (edit->syntax_marker); edit->syntax_marker = s; } } edit->last_get_rule = byte_index; return edit->rule; } static void translate_rule_to_color (WEdit * edit, struct syntax_rule rule, int *fg, int *bg) { struct key_word *k; k = edit->rules[rule.context]->keyword[rule.keyword]; *bg = k->bg; *fg = k->fg; } extern int use_colors; void edit_get_syntax_color (WEdit * edit, long byte_index, int *fg, int *bg) { if (edit->rules && byte_index < edit->last_byte && option_syntax_highlighting && use_colors) { translate_rule_to_color (edit, edit_get_rule (edit, byte_index), fg, bg); } else { #ifdef MIDNIGHT *fg = EDITOR_NORMAL_COLOR; #else *fg = NO_COLOR; *bg = NO_COLOR; #endif } } /* Returns 0 on error/eof or a count of the number of bytes read including the newline. Result must be free'd. */ #ifdef HAVE_MAD static int mad_read_one_line (char **line, FILE * f, char *file, int line_) #define read_one_line(a,b) mad_read_one_line(a,b,__FILE__,__LINE__) #else static int read_one_line (char **line, FILE * f) #endif { char *p; int len = 256, c, r = 0, i = 0; #ifdef HAVE_MAD p = mad_syntax_malloc (len, file, line_); #else p = syntax_malloc (len); #endif for (;;) { c = fgetc (f); if (c == -1) { if (errno == EINTR) continue; r = 0; break; } else if (c == '\n') { r = i + 1; /* extra 1 for the newline just read */ break; } else { if (i >= len - 1) { char *q; q = syntax_malloc (len * 2); memcpy (q, p, len); syntax_free (p); p = q; len *= 2; } p[i++] = c; } } p[i] = 0; *line = p; return r; } static char *strdup_convert (char *s) { char *r, *p; p = r = (char *) strdup (s); while (*s) { switch (*s) { case '\\': s++; switch (*s) { case ' ': *p = ' '; s--; break; case 'n': *p = '\n'; break; case 'r': *p = '\r'; break; case 't': *p = '\t'; break; case 's': *p = ' '; break; case '*': *p = '*'; break; case '\\': *p = '\\'; break; case '[': case ']': *p = '\003'; break; case '{': case '}': *p = '\004'; break; default: *p = *s; break; } break; case '*': *p = '\001'; break; case '+': *p = '\002'; break; default: *p = *s; break; } s++; p++; } *p = '\0'; return r; } #define whiteness(x) ((x) == '\t' || (x) == '\n' || (x) == ' ') static void get_args (char *l, char **args, int *argc) { *argc = 0; l--; for (;;) { char *p; for (p = l + 1; *p && whiteness (*p); p++); if (!*p) break; for (l = p + 1; *l && !whiteness (*l); l++); *l = '\0'; *args = strdup_convert (p); (*argc)++; args++; } *args = 0; } static void free_args (char **args) { while (*args) { syntax_free (*args); *args = 0; args++; } } #define check_a {if(!*a){result=line;break;}} #define check_not_a {if(*a){result=line;break;}} #ifdef MIDNIGHT int try_alloc_color_pair (char *fg, char *bg); int this_try_alloc_color_pair (char *fg, char *bg) { char f[80], b[80], *p; if (bg) if (!*bg) bg = 0; if (fg) if (!*fg) fg = 0; if (fg) { strcpy (f, fg); p = strchr (f, '/'); if (p) *p = '\0'; fg = f; } if (bg) { strcpy (b, bg); p = strchr (b, '/'); if (p) *p = '\0'; bg = b; } return try_alloc_color_pair (fg, bg); } #else #ifdef GTK int allocate_color (WEdit *edit, gchar *color); int this_allocate_color (WEdit *edit, char *fg) { char *p; if (fg) if (!*fg) fg = 0; if (!fg) return allocate_color (edit, 0); p = strchr (fg, '/'); if (!p) return allocate_color (edit, fg); return allocate_color (edit, p + 1); } #else int this_allocate_color (WEdit *edit, char *fg) { char *p; if (fg) if (!*fg) fg = 0; if (!fg) return allocate_color (0); p = strchr (fg, '/'); if (!p) return allocate_color (fg); return allocate_color (p + 1); } #endif /* GTK */ #endif /* MIDNIGHT */ static char *error_file_name = 0; extern char *mc_home; static FILE *open_include_file (char *filename) { FILE *f; char p[MAX_PATH_LEN]; syntax_free (error_file_name); error_file_name = (char *) strdup (filename); if (*filename == '/') return fopen (filename, "r"); strcpy (p, home_dir); strcat (p, EDIT_DIR "/"); strcat (p, filename); syntax_free (error_file_name); error_file_name = (char *) strdup (p); f = fopen (p, "r"); if (f) return f; #if !defined (MIDNIGHT) && !defined(GTK) strcpy (p, LIBDIR "/syntax/"); #else strcpy (p, mc_home); strcat (p, "/syntax/"); #endif /* MIDNIGHT || GTK */ strcat (p, filename); syntax_free (error_file_name); error_file_name = (char *) strdup (p); return fopen (p, "r"); } /* returns line number on error */ static int edit_read_syntax_rules (WEdit * edit, FILE * f) { FILE *g = 0; char *fg, *bg; char last_fg[32] = "", last_bg[32] = ""; char whole_right[512]; char whole_left[512]; char *args[1024], *l = 0; int save_line = 0, line = 0; struct context_rule **r, *c = 0; int num_words = -1, num_contexts = -1; int argc, result = 0; int i, j; args[0] = 0; strcpy (whole_left, "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_01234567890"); strcpy (whole_right, "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_01234567890"); r = edit->rules = syntax_malloc (MAX_CONTEXTS * sizeof (struct context_rule *)); for (;;) { char **a; line++; l = 0; if (!read_one_line (&l, f)) { if (g) { fclose (f); f = g; g = 0; line = save_line + 1; syntax_free (error_file_name); if (l) syntax_free (l); if (!read_one_line (&l, f)) break; } else { break; } } get_args (l, args, &argc); a = args + 1; if (!args[0]) { /* do nothing */ } else if (!strcmp (args[0], "include")) { if (g || argc != 2) { result = line; break; } g = f; f = open_include_file (args[1]); if (!f) { syntax_free (error_file_name); result = line; break; } save_line = line; line = 0; } else if (!strcmp (args[0], "wholechars")) { check_a; if (!strcmp (*a, "left")) { a++; strcpy (whole_left, *a); } else if (!strcmp (*a, "right")) { a++; strcpy (whole_right, *a); } else { strcpy (whole_left, *a); strcpy (whole_right, *a); } a++; check_not_a; } else if (!strcmp (args[0], "context")) { check_a; if (num_contexts == -1) { if (strcmp (*a, "default")) { /* first context is the default */ *a = 0; check_a; } a++; c = r[0] = syntax_malloc (sizeof (struct context_rule)); c->left = (char *) strdup (" "); c->right = (char *) strdup (" "); num_contexts = 0; } else { c = r[num_contexts] = syntax_malloc (sizeof (struct context_rule)); if (!strcmp (*a, "exclusive")) { a++; c->between_delimiters = 1; } check_a; if (!strcmp (*a, "whole")) { a++; c->whole_word_chars_left = (char *) strdup (whole_left); c->whole_word_chars_right = (char *) strdup (whole_right); } else if (!strcmp (*a, "wholeleft")) { a++; c->whole_word_chars_left = (char *) strdup (whole_left); } else if (!strcmp (*a, "wholeright")) { a++; c->whole_word_chars_right = (char *) strdup (whole_right); } check_a; if (!strcmp (*a, "linestart")) { a++; c->line_start_left = 1; } check_a; c->left = (char *) strdup (*a++); check_a; if (!strcmp (*a, "linestart")) { a++; c->line_start_right = 1; } check_a; c->right = (char *) strdup (*a++); c->first_left = *c->left; c->first_right = *c->right; c->single_char = (strlen (c->right) == 1); } c->keyword = syntax_malloc (MAX_WORDS_PER_CONTEXT * sizeof (struct key_word *)); #if 0 c->max_words = MAX_WORDS_PER_CONTEXT; #endif num_words = 1; c->keyword[0] = syntax_malloc (sizeof (struct key_word)); fg = *a; if (*a) a++; bg = *a; if (*a) a++; strcpy (last_fg, fg ? fg : ""); strcpy (last_bg, bg ? bg : ""); #ifdef MIDNIGHT c->keyword[0]->fg = this_try_alloc_color_pair (fg, bg); #else c->keyword[0]->fg = this_allocate_color (edit, fg); c->keyword[0]->bg = this_allocate_color (edit, bg); #endif c->keyword[0]->keyword = (char *) strdup (" "); check_not_a; num_contexts++; } else if (!strcmp (args[0], "spellcheck")) { if (!c) { result = line; break; } c->spelling = 1; } else if (!strcmp (args[0], "keyword")) { struct key_word *k; if (num_words == -1) *a = 0; check_a; k = r[num_contexts - 1]->keyword[num_words] = syntax_malloc (sizeof (struct key_word)); if (!strcmp (*a, "whole")) { a++; k->whole_word_chars_left = (char *) strdup (whole_left); k->whole_word_chars_right = (char *) strdup (whole_right); } else if (!strcmp (*a, "wholeleft")) { a++; k->whole_word_chars_left = (char *) strdup (whole_left); } else if (!strcmp (*a, "wholeright")) { a++; k->whole_word_chars_right = (char *) strdup (whole_right); } check_a; if (!strcmp (*a, "linestart")) { a++; k->line_start = 1; } check_a; if (!strcmp (*a, "whole")) { *a = 0; check_a; } k->keyword = (char *) strdup (*a++); k->first = *k->keyword; fg = *a; if (*a) a++; bg = *a; if (*a) a++; if (!fg) fg = last_fg; if (!bg) bg = last_bg; #ifdef MIDNIGHT k->fg = this_try_alloc_color_pair (fg, bg); #else k->fg = this_allocate_color (edit, fg); k->bg = this_allocate_color (edit, bg); #endif check_not_a; num_words++; } else if (!strncmp (args[0], "#", 1)) { /* do nothing for comment */ } else if (!strcmp (args[0], "file")) { break; } else { /* anything else is an error */ *a = 0; check_a; } free_args (args); syntax_free (l); } free_args (args); syntax_free (l); if (!edit->rules[0]) syntax_free (edit->rules); if (result) return result; if (num_contexts == -1) { result = line; return result; } { char first_chars[MAX_WORDS_PER_CONTEXT + 2], *p; for (i = 0; edit->rules[i]; i++) { c = edit->rules[i]; p = first_chars; *p++ = (char) 1; for (j = 1; c->keyword[j]; j++) *p++ = c->keyword[j]->first; *p = '\0'; c->keyword_first_chars = syntax_malloc (strlen (first_chars) + 2); strcpy (c->keyword_first_chars, first_chars); } } return result; } #if !defined (GTK) && !defined (MIDNIGHT) /* strdup and append c */ static char *strdupc (char *s, int c) { char *t; int l; strcpy (t = syntax_malloc ((l = strlen (s)) + 3), s); t[l] = c; t[l + 1] = '\0'; return t; } static void edit_syntax_clear_keyword (WEdit * edit, int context, int j) { struct context_rule *c; struct _syntax_marker *s; c = edit->rules[context]; /* first we clear any instances of this keyword in our cache chain (we used to just clear the cache chain, but this slows things down) */ for (s = edit->syntax_marker; s; s = s->next) if (s->rule.keyword == j) s->rule.keyword = 0; else if (s->rule.keyword > j) s->rule.keyword--; syntax_free (c->keyword[j]->keyword); syntax_free (c->keyword[j]->whole_word_chars_left); syntax_free (c->keyword[j]->whole_word_chars_right); syntax_free (c->keyword[j]); memcpy (&c->keyword[j], &c->keyword[j + 1], (MAX_WORDS_PER_CONTEXT - j - 1) * sizeof (struct keyword *)); strcpy (&c->keyword_first_chars[j], &c->keyword_first_chars[j + 1]); } FILE *spelling_pipe_in = 0; FILE *spelling_pipe_out = 0; pid_t ispell_pid = 0; /* adds a keyword for underlining into the keyword list for this context, returns 1 if too many words */ static int edit_syntax_add_keyword (WEdit * edit, char *keyword, int context, time_t t) { int j; char *s; struct context_rule *c; c = edit->rules[context]; for (j = 1; c->keyword[j]; j++) { /* if a keyword has been around for more than TRANSIENT_WORD_TIME_OUT seconds, then remove it - we don't want to run out of space or makes syntax highlighting to slow */ if (c->keyword[j]->time) { if (c->keyword[j]->time + TRANSIENT_WORD_TIME_OUT < t) { edit->force |= REDRAW_PAGE; edit_syntax_clear_keyword (edit, context, j); j--; } } } /* are we out of space? */ if (j >= MAX_WORDS_PER_CONTEXT - 2) return 1; /* add the new keyword and date it */ c->keyword[j + 1] = 0; c->keyword[j] = syntax_malloc (sizeof (struct key_word)); #ifdef MIDNIGHT c->keyword[j]->fg = SPELLING_ERROR; #else c->keyword[j]->fg = c->keyword[0]->fg; c->keyword[j]->bg = SPELLING_ERROR; #endif c->keyword[j]->keyword = (char *) strdup (keyword); c->keyword[j]->first = *c->keyword[j]->keyword; c->keyword[j]->whole_word_chars_left = (char *) strdup ("-'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ ¡¢£¤¥¦§§¨©©ª«¬­®®¯°±²³´µ¶¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö÷øùúûüýþÿ"); c->keyword[j]->whole_word_chars_right = (char *) strdup ("-'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ ¡¢£¤¥¦§§¨©©ª«¬­®®¯°±²³´µ¶¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö÷øùúûüýþÿ"); c->keyword[j]->time = t; s = strdupc (c->keyword_first_chars, c->keyword[j]->first); syntax_free (c->keyword_first_chars); c->keyword_first_chars = s; return 0; } /* checks spelling of the word at offset */ static int edit_check_spelling_at (WEdit * edit, long byte_index) { int context; long p1, p2; unsigned char *p, *q; int r, c1, c2, j; int ch; time_t t; struct context_rule *c; /* sanity check */ if (!edit->rules || byte_index > edit->last_byte) return 0; /* in what context are we */ context = edit_get_rule (edit, byte_index).context; c = edit->rules[context]; /* does this context have `spellcheck' */ if (!edit->rules[context]->spelling) return 0; /* find word start */ for (p1 = byte_index - 1;; p1--) { ch = edit_get_byte (edit, p1); if (isalpha (ch) || ch == '-' || ch == '\'') continue; break; } p1++; /* find word end */ for (p2 = byte_index;; p2++) { ch = edit_get_byte (edit, p2); if (isalpha (ch) || ch == '-' || ch == '\'') continue; break; } if (p2 <= p1) return 0; /* create string */ q = p = syntax_malloc (p2 - p1 + 2); for (; p1 < p2; p1++) *p++ = edit_get_byte (edit, p1); *p = '\0'; if (q[0] == '-' || strlen ((char *) q) > 40) { /* if you are using words over 40 characters, you are on your own */ syntax_free (q); return 0; } time (&t); for (j = 1; c->keyword[j]; j++) { /* if the keyword is present, then update its time only. if it is a fixed keyword from the rules file, then just return */ if (!strcmp (c->keyword[j]->keyword, (char *) q)) { if (c->keyword[j]->time) c->keyword[j]->time = t; syntax_free (q); return 0; } } /* feed it to ispell */ fprintf (spelling_pipe_out, "%s\n", (char *) q); fflush (spelling_pipe_out); /* what does ispell say? */ do { r = fgetc (spelling_pipe_in); } while (r == -1 && errno == EINTR); if (r == -1) { syntax_free (q); return 1; } if (r == '\n') { /* ispell sometimes returns just blank line if it is given bad characters */ syntax_free (q); return 0; } /* now read ispell output untill we get two blanks lines - we are not intersted in this part */ do { c1 = fgetc (spelling_pipe_in); } while (c1 == -1 && errno == EINTR); for (;;) { if (c1 == -1) { syntax_free (q); return 1; } do { c2 = fgetc (spelling_pipe_in); } while (c2 == -1 && errno == EINTR); if (c1 == '\n' && c2 == '\n') break; c1 = c2; } /* spelled ok */ if (r == '*' || r == '+' || r == '-') { syntax_free (q); return 0; } /* not spelled ok - so add a syntax keyword for this word */ edit_syntax_add_keyword (edit, (char *) q, context, t); syntax_free (q); return 0; } char *option_alternate_dictionary = ""; int edit_check_spelling (WEdit * edit) { if (!option_auto_spellcheck) return 0; /* magic arg to close up shop */ if (!edit) { option_auto_spellcheck = 0; goto close_spelling; } /* do we at least have a syntax rule struct to put new wrongly spelled keyword in for highlighting? */ if (!edit->rules && !edit->explicit_syntax) edit_load_syntax (edit, 0, UNKNOWN_FORMAT); if (!edit->rules) { option_auto_spellcheck = 0; return 0; } /* is ispell running? */ if (!spelling_pipe_in) { int in, out, a = 0; char *arg[10]; arg[a++] = "ispell"; arg[a++] = "-a"; if (option_alternate_dictionary) if (*option_alternate_dictionary) { arg[a++] = "-d"; arg[a++] = option_alternate_dictionary; } arg[a++] = "-a"; arg[a++] = 0; /* start ispell process */ ispell_pid = triple_pipe_open (&in, &out, 0, 1, arg[0], arg); if (ispell_pid < 1) { option_auto_spellcheck = 0; #if 0 CErrorDialog (0, 0, 0, _ (" Spelling Message "), "%s", _ (" Fail trying to open ispell program. \n Check that it is in your path and works with the -a option. \n Alternatively, disable spell checking from the Options menu. ")); #endif return 1; } /* prepare pipes */ spelling_pipe_in = (FILE *) fdopen (out, "r"); spelling_pipe_out = (FILE *) fdopen (in, "w"); if (!spelling_pipe_in || !spelling_pipe_out) { option_auto_spellcheck = 0; CErrorDialog (0, 0, 0, _ (" Spelling Message "), "%s", _ (" Fail trying to open ispell pipes. \n Check that it is in your path and works with the -a option. \n Alternatively, disable spell checking from the Options menu. ")); return 1; } /* read the banner message */ for (;;) { int c1; c1 = fgetc (spelling_pipe_in); if (c1 == -1 && errno != EINTR) { option_auto_spellcheck = 0; CErrorDialog (0, 0, 0, _ (" Spelling Message "), "%s", _ (" Fail trying to read ispell pipes. \n Check that it is in your path and works with the -a option. \n Alternatively, disable spell checking from the Options menu. ")); return 1; } if (c1 == '\n') break; } } /* spellcheck the word under the cursor */ if (edit_check_spelling_at (edit, edit->curs1)) { CMessageDialog (0, 0, 0, 0, _ (" Spelling Message "), "%s", _ (" Error reading from ispell. \n Ispell is being restarted. ")); close_spelling: fclose (spelling_pipe_in); spelling_pipe_in = 0; fclose (spelling_pipe_out); spelling_pipe_out = 0; kill (ispell_pid, SIGKILL); } return 0; } #else /* ! GTK && ! MIDNIGHT*/ int edit_check_spelling (WEdit * edit) { return 0; } #endif void (*syntax_change_callback) (CWidget *) = 0; void edit_set_syntax_change_callback (void (*callback) (CWidget *)) { syntax_change_callback = callback; } void edit_free_syntax_rules (WEdit * edit) { int i, j; if (!edit) return; if (!edit->rules) return; edit_get_rule (edit, -1); syntax_free (edit->syntax_type); edit->syntax_type = 0; if (syntax_change_callback) #ifdef MIDNIGHT (*syntax_change_callback) (&edit->widget); #else (*syntax_change_callback) (edit->widget); #endif for (i = 0; edit->rules[i]; i++) { if (edit->rules[i]->keyword) { for (j = 0; edit->rules[i]->keyword[j]; j++) { syntax_free (edit->rules[i]->keyword[j]->keyword); syntax_free (edit->rules[i]->keyword[j]->whole_word_chars_left); syntax_free (edit->rules[i]->keyword[j]->whole_word_chars_right); syntax_free (edit->rules[i]->keyword[j]); } } syntax_free (edit->rules[i]->left); syntax_free (edit->rules[i]->right); syntax_free (edit->rules[i]->whole_word_chars_left); syntax_free (edit->rules[i]->whole_word_chars_right); syntax_free (edit->rules[i]->keyword); syntax_free (edit->rules[i]->keyword_first_chars); syntax_free (edit->rules[i]); } while (edit->syntax_marker) { struct _syntax_marker *s = edit->syntax_marker->next; syntax_free (edit->syntax_marker); edit->syntax_marker = s; } syntax_free (edit->rules); } #define CURRENT_SYNTAX_RULES_VERSION "62" static const char * const syntax_text[] = { "# syntax rules version " CURRENT_SYNTAX_RULES_VERSION, "# (after the slash is a Cooledit color, 0-26 or any of the X colors in rgb.txt)", "# black", "# red", "# green", "# brown", "# blue", "# magenta", "# cyan", "# lightgray", "# gray", "# brightred", "# brightgreen", "# yellow", "# brightblue", "# brightmagenta", "# brightcyan", "# white", "", "file gobledy_gook #\\sHelp\\ssupport\\sother\\sfile\\stypes", "context default", "file gobledy_gook #\\sby\\scoding\\srules\\sin\\s~/.cedit/syntax.", "context default", "file gobledy_gook #\\sSee\\sman/syntax\\sin\\sthe\\ssource\\sdistribution", "context default", "file gobledy_gook #\\sand\\sconsult\\sthe\\sman\\spage.", "context default", "", "", "file ..\\*\\\\.(diff|rej|patch)$ Diff\\sOutput ^diff", "include diff.syntax", "", "file ..\\*\\\\.lsm$ LSM\\sFile", "include lsm.syntax", "", "file ..\\*\\\\.sh$ Shell\\sScript ^#!\\s\\*/.\\*/(ksh|bash|sh|pdkzsh)", "include sh.syntax", "", "file ..\\*\\\\.(pl|PL|pm|PM])$ Perl\\sProgram ^#!\\s\\*/.\\*/perl", "include perl.syntax", "", "file ..\\*\\\\.(py|PY])$ Python\\sProgram ^#!\\s\\*/.\\*/python", "include python.syntax", "", "file ..\\*\\\\.(man|[0-9n]|[0-9]x)$ NROFF\\sSource", "include nroff.syntax", "", "file ..\\*\\\\.(htm|html|HTM|HTML)$ HTML\\sFile", "include html.syntax", "", "file ..\\*\\\\.(pp|PP|pas|PAS)$ Pascal\\sProgram", "include pascal.syntax", "", "file ..\\*\\\\.(ada|adb|ads|ADA|ADB|ADS)$ Ada\\sProgram", "include ada95.syntax", "", "file ..\\*\\\\.(sl|SL)$ S-Lang\\sProgram", "include slang.syntax", "", "file ..\\*\\\\.tex$ LaTeX\\s2.09\\sDocument", "include latex.syntax", "", "file ..\\*\\.(texi|texinfo|TEXI|TEXINFO)$ Texinfo\\sDocument", "include texinfo.syntax", "", "file ..\\*\\\\.([chC]|CC|cxx|cc|cpp|CPP|CXX)$ C/C\\+\\+\\sProgram", "include c.syntax", "", "file ..\\*\\\\.[fF]$ Fortran\\sProgram", "include fortran.syntax", "", "file ..\\*\\\\.i$ SWIG\\sSource", "include swig.syntax", "", "file ..\\*\\\\.(java|JAVA|Java|jav)$ Java\\sProgram", "include java.syntax", "", "file ..\\*\\\\.(st)$ SmallTalk\\sProgram", "include smalltalk.syntax", "", "file ..\\*\\\\.(ml|mli|mly|mll|mlp)$ ML\\sProgram", "include ml.syntax", "", "file ..\\*\\\\.m$ Matlab\\sor\\sOctave\\sFile", "include octave.syntax", "", "file .\\*ChangeLog$ GNU\\sDistribution\\sChangeLog\\sFile", "include changelog.syntax", "", "file .\\*[Mm]akefile[\\\\\\.a-z]\\*$ Makefile", "include makefile.syntax", "", "file Don_t_match_me Mail\\sfolder ^From\\s", "include mail.syntax", "", "file .\\*syntax$ Syntax\\sHighlighting\\sdefinitions", "", "context default", " keyword whole spellch\\eck yellow/24", " keyword whole keyw\\ord yellow/24", " keyword whole whole\\[\\t\\s\\]l\\inestart brightcyan/17", " keyword whole whole\\[\\t\\s\\]l\\inestart brightcyan/17", " keyword whole wh\\oleleft\\[\\t\\s\\]l\\inestart brightcyan/17", " keyword whole wh\\oleright\\[\\t\\s\\]l\\inestart brightcyan/17", " keyword whole l\\inestart\\[\\t\\s\\]wh\\ole", " keyword whole l\\inestart\\[\\t\\s\\]wh\\ole", " keyword whole l\\inestart\\[\\t\\s\\]wh\\oleleft", " keyword whole l\\inestart\\[\\t\\s\\]wh\\oleright", " keyword wholeleft whole\\s brightcyan/17", " keyword wholeleft whole\\t brightcyan/17", " keyword whole wh\\oleleft brightcyan/17", " keyword whole wh\\oleright brightcyan/17", " keyword whole lin\\[e\\]start brightcyan/17", " keyword whole c\\ontext\\[\\t\\s\\]exclusive brightred/18", " keyword whole c\\ontext\\[\\t\\s\\]default brightred/18", " keyword whole c\\ontext brightred/18", " keyword whole wh\\olechars\\[\\t\\s\\]left brightcyan/17", " keyword whole wh\\olechars\\[\\t\\s\\]right brightcyan/17", " keyword whole wh\\olechars brightcyan/17", " keyword whole f\\ile brightgreen/6", " keyword whole in\\clude brightred/18", "", " keyword whole 0 lightgray/0 blue/26", " keyword whole 1 lightgray/1 blue/26", " keyword whole 2 lightgray/2 blue/26", " keyword whole 3 lightgray/3 blue/26", " keyword whole 4 lightgray/4 blue/26", " keyword whole 5 lightgray/5 blue/26", " keyword whole 6 lightgray/6", " keyword whole 7 lightgray/7", " keyword whole 8 lightgray/8", " keyword whole 9 lightgray/9", " keyword whole 10 lightgray/10", " keyword whole 11 lightgray/11", " keyword whole 12 lightgray/12", " keyword whole 13 lightgray/13", " keyword whole 14 lightgray/14", " keyword whole 15 lightgray/15", " keyword whole 16 lightgray/16", " keyword whole 17 lightgray/17", " keyword whole 18 lightgray/18", " keyword whole 19 lightgray/19", " keyword whole 20 lightgray/20", " keyword whole 21 lightgray/21", " keyword whole 22 lightgray/22", " keyword whole 23 lightgray/23", " keyword whole 24 lightgray/24", " keyword whole 25 lightgray/25", " keyword whole 26 lightgray/26", "", " keyword wholeleft black\\/ black/0", " keyword wholeleft red\\/ red/DarkRed", " keyword wholeleft green\\/ green/green3", " keyword wholeleft brown\\/ brown/saddlebrown", " keyword wholeleft blue\\/ blue/blue3", " keyword wholeleft magenta\\/ magenta/magenta3", " keyword wholeleft cyan\\/ cyan/cyan3", " keyword wholeleft lightgray\\/ lightgray/lightgray", " keyword wholeleft gray\\/ gray/gray", " keyword wholeleft brightred\\/ brightred/red", " keyword wholeleft brightgreen\\/ brightgreen/green1", " keyword wholeleft yellow\\/ yellow/yellow", " keyword wholeleft brightblue\\/ brightblue/blue1", " keyword wholeleft brightmagenta\\/ brightmagenta/magenta", " keyword wholeleft brightcyan\\/ brightcyan/cyan1", " keyword wholeleft white\\/ white/26", "", "context linestart # \\n brown/22", "", "file .\\* " UNKNOWN_FORMAT, "include unknown.syntax", "", 0}; FILE *upgrade_syntax_file (char *syntax_file) { FILE *f; char *p; char line[80]; f = fopen (syntax_file, "r"); if (!f) { const char * const *syntax_line; rewrite_rule_file: f = fopen (syntax_file, "w"); if (!f) return 0; for (syntax_line = syntax_text; *syntax_line; syntax_line++) fprintf (f, "%s\n", *syntax_line); fclose (f); return fopen (syntax_file, "r"); } memset (line, 0, sizeof (line)); fread (line, sizeof (line) - 1, 1, f); if (!strstr (line, "syntax rules version")) goto rename_rule_file; p = strstr (line, "version") + strlen ("version") + 1; if (atoi (p) < atoi (CURRENT_SYNTAX_RULES_VERSION)) { char s[1024]; rename_rule_file: fclose (f); strcpy (s, syntax_file); strcat (s, ".OLD"); unlink (s); rename (syntax_file, s); unlink (syntax_file); /* might rename() fail ? */ #if defined(MIDNIGHT) || defined(GTK) edit_message_dialog (_(" Load Syntax Rules "), _(" Your syntax rule file is outdated \n A new rule file is being installed. \n Your old rule file has been saved with a .OLD extension. ")); #else CMessageDialog (0, 20, 20, 0,_(" Load Syntax Rules "), _(" Your syntax rule file is outdated \n A new rule file is being installed. \n Your old rule file has been saved with a .OLD extension. ")); #endif goto rewrite_rule_file; } rewind (f); return f; } /* returns -1 on file error, line number on error in file syntax */ static int edit_read_syntax_file (WEdit * edit, char **names, char *syntax_file, char *editor_file, char *first_line, char *type) { FILE *f; regex_t r; regmatch_t pmatch[1]; char *args[1024], *l = 0; int line = 0; int argc; int result = 0; int count = 0; f = upgrade_syntax_file (syntax_file); if (!f) return -1; args[0] = 0; for (;;) { line++; syntax_free (l); if (!read_one_line (&l, f)) break; get_args (l, args, &argc); if (!args[0]) continue; /* looking for `file ...' lines only */ if (strcmp (args[0], "file")) { free_args (args); continue; } /* must have two args or report error */ if (!args[1] || !args[2]) { result = line; break; } if (names) { /* 1: just collecting a list of names of rule sets */ names[count++] = (char *) strdup (args[2]); names[count] = 0; } else if (type) { /* 2: rule set was explicitly specified by the caller */ if (!strcmp (type, args[2])) goto found_type; } else if (editor_file && edit) { /* 3: auto-detect rule set from regular expressions */ int q; if (regcomp (&r, args[1], REG_EXTENDED)) { result = line; break; } /* does filename match arg 1 ? */ q = !regexec (&r, editor_file, 1, pmatch, 0); regfree (&r); if (!q && args[3]) { if (regcomp (&r, args[3], REG_EXTENDED)) { result = line; break; } /* does first line match arg 3 ? */ q = !regexec (&r, first_line, 1, pmatch, 0); regfree (&r); } if (q) { int line_error; found_type: line_error = edit_read_syntax_rules (edit, f); if (line_error) { if (!error_file_name) /* an included file */ result = line + line_error; else result = line_error; } else { syntax_free (edit->syntax_type); edit->syntax_type = (char *) strdup (args[2]); /* if there are no rules then turn off syntax highlighting for speed */ if (!edit->rules[1]) if (!edit->rules[0]->keyword[1] && !edit->rules[0]->spelling) { edit_free_syntax_rules (edit); break; } /* notify the callback of a change in rule set */ if (syntax_change_callback) #ifdef MIDNIGHT (*syntax_change_callback) (&edit->widget); #else (*syntax_change_callback) (edit->widget); #endif } break; } } free_args (args); } free_args (args); syntax_free (l); fclose (f); return result; } static char *get_first_editor_line (WEdit * edit) { int i; static char s[256]; s[0] = '\0'; if (!edit) return s; for (i = 0; i < 255; i++) { s[i] = edit_get_byte (edit, i); if (s[i] == '\n') { s[i] = '\0'; break; } } s[255] = '\0'; return s; } /* loads rules into edit struct. one of edit or names must be zero. if edit is zero, a list of types will be stored into name. type may be zero in which case the type will be selected according to the filename. */ void edit_load_syntax (WEdit * edit, char **names, char *type) { int r; char *f; edit_free_syntax_rules (edit); if (!option_syntax_highlighting) return; if (edit) { if (!edit->filename) return; if (!*edit->filename && !type) return; } f = catstrs (home_dir, SYNTAX_FILE, 0); r = edit_read_syntax_file (edit, names, f, edit ? edit->filename : 0, get_first_editor_line (edit), type); if (r == -1) { edit_free_syntax_rules (edit); edit_error_dialog (_ (" Load syntax file "), _ (" File access error ")); return; } if (r) { char s[80]; edit_free_syntax_rules (edit); sprintf (s, _ (" Error in file %s on line %d "), error_file_name ? error_file_name : f, r); edit_error_dialog (_ (" Load syntax file "), s); syntax_free (error_file_name); return; } } #else int option_syntax_highlighting = 0; void edit_load_syntax (WEdit * edit, char **names, char *type) { return; } void edit_free_syntax_rules (WEdit * edit) { return; } void edit_get_syntax_color (WEdit * edit, long byte_index, int *fg, int *bg) { *fg = NORMAL_COLOR; } int edit_check_spelling (WEdit * edit) { return 0; } #endif /* !defined(MIDNIGHT) || defined(HAVE_SYNTAXH) */