mc/edit/syntax.c
Denys Vlasenko e064bd60df De-inline a few functions which are large
...or not-so-large but nevertheless
contain more than one function call,
or contain loops, or contain if's and at least one
function call, or contain largish objects on stack.

In my experience, in those cases the code size
growth is big enough to not inline stuff.

I guess some of the really big functions
are defined inline because they have, or had in the past,
just one callsite.

But for a few years gcc already does it automatically,
no need to do it by hand and risk code size explosion
when later during code evolution another callsite
is created. This optimization by hand is simply
no longer needed.

Anyway, here is the code size difference:

   text    data     bss     dec     hex filename
 572337   17944  177820  768101   bb865 mc.t5/.obj/src/mc
 567697   17944  177820  763461   ba645 mc.t6/.obj/src/mc

Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
Signed-off-by: Sergei Trofimovich <slyfox@inbox.ru>
2009-08-31 07:12:59 +03:00

1221 lines
28 KiB
C

/* editor syntax highlighting.
Copyright (C) 1996, 1997, 1998, 2001, 2002, 2003, 2004, 2005, 2006,
2007 Free Software Foundation, Inc.
Authors: 1998 Paul Sheer
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., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
*/
/** \file
* \brief Source: editor syntax highlighting
* \author Paul Sheer
* \date 1996, 1997
*
* 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.
*/
#include <config.h>
#include <stdio.h>
#include <stdarg.h>
#include <sys/types.h>
#include <unistd.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <sys/stat.h>
#include <stdlib.h>
#include "../src/global.h"
#include "edit-impl.h"
#include "edit-widget.h"
#include "../src/search/search.h" /* search engine */
#include "../src/tty/color.h"
#include "edit-impl.h"
#include "edit-widget.h"
#include "../src/main.h" /* mc_home */
#include "../src/wtools.h" /* message() */
#include "../src/strutil.h" /* utf string functions */
/* bytes */
#define SYNTAX_MARKER_DENSITY 512
#define TRANSIENT_WORD_TIME_OUT 60
#define UNKNOWN_FORMAT "unknown"
#define MAX_WORDS_PER_CONTEXT 1024
#define MAX_CONTEXTS 128
#define RULE_ON_LEFT_BORDER 1
#define RULE_ON_RIGHT_BORDER 2
#define SYNTAX_TOKEN_STAR '\001'
#define SYNTAX_TOKEN_PLUS '\002'
#define SYNTAX_TOKEN_BRACKET '\003'
#define SYNTAX_TOKEN_BRACE '\004'
struct key_word {
char *keyword;
unsigned char first;
char *whole_word_chars_left;
char *whole_word_chars_right;
int line_start;
int color;
};
struct context_rule {
char *left;
unsigned char first_left;
char *right;
unsigned char first_right;
char line_start_left;
char line_start_right;
int between_delimiters;
char *whole_word_chars_left;
char *whole_word_chars_right;
char *keyword_first_chars;
int spelling;
/* first word is word[1] */
struct key_word **keyword;
};
struct _syntax_marker {
long offset;
struct syntax_rule rule;
struct _syntax_marker *next;
};
int option_syntax_highlighting = 1;
int option_auto_syntax = 1;
char *option_syntax_type = NULL;
static gint
mc_defines_destroy (gpointer key, gpointer value, gpointer data)
{
char **values = value;
(void) data;
g_free (key);
while (*values)
g_free (*values++);
g_free (value);
return FALSE;
}
/* Completely destroys the defines tree */
static void
destroy_defines (GTree **defines)
{
g_tree_traverse (*defines, mc_defines_destroy, G_POST_ORDER, NULL);
g_tree_destroy (*defines);
*defines = 0;
}
static void
subst_defines (GTree *defines, char **argv, char **argv_end)
{
char **t, **p;
int argc;
while (*argv && argv < argv_end) {
if ((t = g_tree_lookup (defines, *argv))) {
int count = 0;
/* Count argv array members */
argc = 0;
for (p = &argv[1]; *p; p++)
argc++;
/* Count members of definition array */
for (p = t; *p; p++)
count++;
p = &argv[count + argc];
/* Buffer overflow or infinitive loop in define */
if (p >= argv_end)
break;
/* Move rest of argv after definition members */
while (argc >= 0)
*p-- = argv[argc-- + 1];
/* Copy definition members to argv */
for (p = argv; *t; *p++ = *t++);
}
argv++;
}
}
static long
compare_word_to_right (WEdit *edit, long i, const char *text,
const char *whole_left, const char *whole_right,
int line_start)
{
const 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 + str_term_width1 ((char *) p); p < q; p++, i++) {
switch (*p) {
case SYNTAX_TOKEN_STAR:
if (++p > q)
return -1;
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 SYNTAX_TOKEN_PLUS:
if (++p > q)
return -1;
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 SYNTAX_TOKEN_BRACKET:
if (++p > q)
return -1;
c = -1;
for (;; i++) {
d = c;
c = edit_get_byte (edit, i);
for (j = 0; p[j] != SYNTAX_TOKEN_BRACKET && p[j]; j++)
if (c == p[j])
goto found_char2;
break;
found_char2:
; /* dummy command */
}
i--;
while (*p != SYNTAX_TOKEN_BRACKET && p <= q)
p++;
if (p > q)
return -1;
if (p[1] == d)
i--;
break;
case SYNTAX_TOKEN_BRACE:
if (++p > q)
return -1;
c = edit_get_byte (edit, i);
for (; *p != SYNTAX_TOKEN_BRACE && *p; p++)
if (c == *p)
goto found_char3;
return -1;
found_char3:
while (*p != SYNTAX_TOKEN_BRACE && p < q)
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;
}
static const char *xx_strchr (const unsigned char *s, int c)
{
while (*s >= '\005' && *s != (unsigned char) c) {
s++;
}
return (const char *) s;
}
static 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) {
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) {
const char *p;
p = (r = edit->rules[_rule.context])->keyword_first_chars;
if (p)
while (*(p = xx_strchr ((unsigned char *) p + 1, c))) {
struct key_word *k;
int count;
long e;
count = p - 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;
contextchanged = 1;
}
break;
}
}
}
}
}
/* check again to turn on a keyword if the context switched */
if (contextchanged && !_rule.keyword) {
const 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 = p - 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 = g_malloc0 (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;
MC_PTR_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 *color)
{
struct key_word *k;
k = edit->rules[rule.context]->keyword[rule.keyword];
*color = k->color;
}
void edit_get_syntax_color (WEdit * edit, long byte_index, int *color)
{
if (edit->rules && byte_index < edit->last_byte &&
option_syntax_highlighting && tty_use_colors ()) {
translate_rule_to_color (edit, edit_get_rule (edit, byte_index), color);
} else {
*color = tty_use_colors () ? EDITOR_NORMAL_COLOR_INDEX : 0;
}
}
/*
Returns 0 on error/eof or a count of the number of bytes read
including the newline. Result must be free'd.
In case of an error, *line will not be modified.
*/
static int read_one_line (char **line, FILE * f)
{
GString *p = g_string_new ("");
int c, r = 0;
for (;;) {
c = fgetc (f);
if (c == EOF) {
if (ferror (f)) {
if (errno == EINTR)
continue;
r = 0;
}
break;
}
r++;
/* handle all of \r\n, \r, \n correctly. */
if (c == '\r') {
if ( (c = fgetc (f)) == '\n')
r++;
else
ungetc (c, f);
break;
}
if (c == '\n')
break;
g_string_append_c (p, c);
}
if (r != 0) {
*line = p->str;
g_string_free (p, FALSE);
} else {
g_string_free (p, TRUE);
}
return r;
}
static char *convert (char *s)
{
char *r, *p;
p = r = 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 = SYNTAX_TOKEN_BRACKET;
break;
case '{':
case '}':
*p = SYNTAX_TOKEN_BRACE;
break;
case 0:
*p = *s;
return r;
default:
*p = *s;
break;
}
break;
case '*':
*p = SYNTAX_TOKEN_STAR;
break;
case '+':
*p = SYNTAX_TOKEN_PLUS;
break;
default:
*p = *s;
break;
}
s++;
p++;
}
*p = '\0';
return r;
}
#define whiteness(x) ((x) == '\t' || (x) == '\n' || (x) == ' ')
static int get_args (char *l, char **args, int args_size)
{
int argc = 0;
while (argc < args_size) {
char *p = l;
while (*p && whiteness (*p))
p++;
if (!*p)
break;
for (l = p + 1; *l && !whiteness (*l); l++);
if (*l)
*l++ = '\0';
args[argc++] = convert (p);
}
args[argc] = (char *) NULL;
return argc;
}
#define free_args(x)
#define break_a {result=line;break;}
#define check_a {if(!*a){result=line;break;}}
#define check_not_a {if(*a){result=line;break;}}
static int
this_try_alloc_color_pair (const char *fg, const char *bg)
{
char f[80], b[80], *p;
if (bg)
if (!*bg)
bg = 0;
if (fg)
if (!*fg)
fg = 0;
if (fg) {
g_strlcpy (f, fg, sizeof (f));
p = strchr (f, '/');
if (p)
*p = '\0';
fg = f;
}
if (bg) {
g_strlcpy (b, bg, sizeof (b));
p = strchr (b, '/');
if (p)
*p = '\0';
bg = b;
}
return tty_try_alloc_color_pair (fg, bg);
}
static char *error_file_name = 0;
static FILE *open_include_file (const char *filename)
{
FILE *f;
MC_PTR_FREE (error_file_name);
error_file_name = g_strdup (filename);
if (*filename == PATH_SEP)
return fopen (filename, "r");
g_free (error_file_name);
error_file_name = g_strconcat (home_dir, PATH_SEP_STR EDIT_DIR PATH_SEP_STR,
filename, (char *) NULL);
f = fopen (error_file_name, "r");
if (f)
return f;
g_free (error_file_name);
error_file_name = g_strconcat (mc_home, PATH_SEP_STR, "syntax", PATH_SEP_STR,
filename, (char *) NULL);
if ((f = fopen (error_file_name, "r"))) {
g_free (error_file_name);
return f;
}
g_free (error_file_name);
error_file_name = g_strconcat (mc_home_alt, PATH_SEP_STR "syntax" PATH_SEP_STR,
filename, (char *) NULL);
return fopen (error_file_name, "r");
}
/* returns line number on error */
static int
edit_read_syntax_rules (WEdit *edit, FILE *f, char **args, int args_size)
{
FILE *g = 0;
char *fg, *bg;
char last_fg[32] = "", last_bg[32] = "";
char whole_right[512];
char whole_left[512];
char *l = 0;
int save_line = 0, line = 0;
struct context_rule **r, *c = 0;
int num_words = -1, num_contexts = -1;
int result = 0;
int argc;
int i, j;
int alloc_contexts = MAX_CONTEXTS,
alloc_words_per_context = MAX_WORDS_PER_CONTEXT,
max_alloc_words_per_context = MAX_WORDS_PER_CONTEXT;
args[0] = 0;
strcpy (whole_left, "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_01234567890");
strcpy (whole_right, "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_01234567890");
r = edit->rules = g_malloc0 (alloc_contexts * sizeof (struct context_rule *));
if (!edit->defines)
edit->defines = g_tree_new ((GCompareFunc) strcmp);
for (;;) {
char **a;
line++;
l = 0;
if (!read_one_line (&l, f)) {
if (g) {
fclose (f);
f = g;
g = 0;
line = save_line + 1;
MC_PTR_FREE (error_file_name);
MC_PTR_FREE (l);
if (!read_one_line (&l, f))
break;
} else {
break;
}
}
argc = get_args (l, args, args_size);
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) {
MC_PTR_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++;
g_strlcpy (whole_left, *a, sizeof (whole_left));
} else if (!strcmp (*a, "right")) {
a++;
g_strlcpy (whole_right, *a, sizeof (whole_right));
} else {
g_strlcpy (whole_left, *a, sizeof (whole_left));
g_strlcpy (whole_right, *a, sizeof (whole_right));
}
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 */
break_a;
}
a++;
c = r[0] = g_malloc0 (sizeof (struct context_rule));
c->left = g_strdup (" ");
c->right = g_strdup (" ");
num_contexts = 0;
} else {
/* Terminate previous context. */
r[num_contexts - 1]->keyword[num_words] = NULL;
c = r[num_contexts] = g_malloc0 (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 = g_strdup (whole_left);
c->whole_word_chars_right = g_strdup (whole_right);
} else if (!strcmp (*a, "wholeleft")) {
a++;
c->whole_word_chars_left = g_strdup (whole_left);
} else if (!strcmp (*a, "wholeright")) {
a++;
c->whole_word_chars_right = g_strdup (whole_right);
}
check_a;
if (!strcmp (*a, "linestart")) {
a++;
c->line_start_left = 1;
}
check_a;
c->left = g_strdup (*a++);
check_a;
if (!strcmp (*a, "linestart")) {
a++;
c->line_start_right = 1;
}
check_a;
c->right = g_strdup (*a++);
c->first_left = *c->left;
c->first_right = *c->right;
}
c->keyword = g_malloc (alloc_words_per_context * sizeof (struct key_word *));
num_words = 1;
c->keyword[0] = g_malloc0 (sizeof (struct key_word));
subst_defines (edit->defines, a, &args[1024]);
fg = *a;
if (*a)
a++;
bg = *a;
if (*a)
a++;
g_strlcpy (last_fg, fg ? fg : "", sizeof (last_fg));
g_strlcpy (last_bg, bg ? bg : "", sizeof (last_bg));
c->keyword[0]->color = this_try_alloc_color_pair (fg, bg);
c->keyword[0]->keyword = g_strdup (" ");
check_not_a;
alloc_words_per_context = MAX_WORDS_PER_CONTEXT;
if (++num_contexts >= alloc_contexts) {
struct context_rule **tmp;
alloc_contexts += 128;
tmp = g_realloc (r, alloc_contexts * sizeof (struct context_rule *));
r = tmp;
}
} 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)
break_a;
check_a;
k = r[num_contexts - 1]->keyword[num_words] = g_malloc0 (sizeof (struct key_word));
if (!strcmp (*a, "whole")) {
a++;
k->whole_word_chars_left = g_strdup (whole_left);
k->whole_word_chars_right = g_strdup (whole_right);
} else if (!strcmp (*a, "wholeleft")) {
a++;
k->whole_word_chars_left = g_strdup (whole_left);
} else if (!strcmp (*a, "wholeright")) {
a++;
k->whole_word_chars_right = g_strdup (whole_right);
}
check_a;
if (!strcmp (*a, "linestart")) {
a++;
k->line_start = 1;
}
check_a;
if (!strcmp (*a, "whole")) {
break_a;
}
k->keyword = g_strdup (*a++);
k->first = *k->keyword;
subst_defines (edit->defines, a, &args[1024]);
fg = *a;
if (*a)
a++;
bg = *a;
if (*a)
a++;
if (!fg)
fg = last_fg;
if (!bg)
bg = last_bg;
k->color = this_try_alloc_color_pair (fg, bg);
check_not_a;
if (++num_words >= alloc_words_per_context) {
struct key_word **tmp;
alloc_words_per_context += 1024;
if (alloc_words_per_context > max_alloc_words_per_context)
max_alloc_words_per_context = alloc_words_per_context;
tmp = g_realloc (c->keyword, alloc_words_per_context * sizeof (struct key_word *));
c->keyword = tmp;
}
} else if (*(args[0]) == '#') {
/* do nothing for comment */
} else if (!strcmp (args[0], "file")) {
break;
} else if (!strcmp (args[0], "define")) {
char *key = *a++;
char **argv;
if (argc < 3)
break_a;
if ((argv = g_tree_lookup (edit->defines, key))) {
mc_defines_destroy (NULL, argv, NULL);
} else {
key = g_strdup (key);
}
argv = g_new (char *, argc - 1);
g_tree_insert (edit->defines, key, argv);
while (*a) {
*argv++ = g_strdup (*a++);
};
*argv = NULL;
} else { /* anything else is an error */
break_a;
}
free_args (args);
MC_PTR_FREE (l);
}
free_args (args);
MC_PTR_FREE (l);
/* Terminate context array. */
if (num_contexts > 0) {
r[num_contexts - 1]->keyword[num_words] = NULL;
r[num_contexts] = NULL;
}
if (!edit->rules[0])
MC_PTR_FREE (edit->rules);
if (result)
return result;
if (num_contexts == -1) {
return line;
}
{
char *first_chars, *p;
first_chars = g_malloc (max_alloc_words_per_context + 2);
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 = g_strdup (first_chars);
}
g_free (first_chars);
}
return result;
}
void edit_free_syntax_rules (WEdit * edit)
{
int i, j;
if (!edit)
return;
if (edit->defines)
destroy_defines (&edit->defines);
if (!edit->rules)
return;
edit_get_rule (edit, -1);
MC_PTR_FREE (edit->syntax_type);
edit->syntax_type = 0;
for (i = 0; edit->rules[i]; i++) {
if (edit->rules[i]->keyword) {
for (j = 0; edit->rules[i]->keyword[j]; j++) {
MC_PTR_FREE (edit->rules[i]->keyword[j]->keyword);
MC_PTR_FREE (edit->rules[i]->keyword[j]->whole_word_chars_left);
MC_PTR_FREE (edit->rules[i]->keyword[j]->whole_word_chars_right);
MC_PTR_FREE (edit->rules[i]->keyword[j]);
}
}
MC_PTR_FREE (edit->rules[i]->left);
MC_PTR_FREE (edit->rules[i]->right);
MC_PTR_FREE (edit->rules[i]->whole_word_chars_left);
MC_PTR_FREE (edit->rules[i]->whole_word_chars_right);
MC_PTR_FREE (edit->rules[i]->keyword);
MC_PTR_FREE (edit->rules[i]->keyword_first_chars);
MC_PTR_FREE (edit->rules[i]);
}
while (edit->syntax_marker) {
struct _syntax_marker *s = edit->syntax_marker->next;
MC_PTR_FREE (edit->syntax_marker);
edit->syntax_marker = s;
}
MC_PTR_FREE (edit->rules);
}
/* returns -1 on file error, line number on error in file syntax */
static int
edit_read_syntax_file (WEdit * edit, char ***pnames, const char *syntax_file,
const char *editor_file, const char *first_line,
const char *type)
{
#define NENTRIES 30
FILE *f, *g = NULL;
char *args[1024], *l = 0;
int line = 0;
int result = 0;
int count = 0;
char *lib_file;
int found = 0;
char **tmpnames = NULL;
f = fopen (syntax_file, "r");
if (!f){
lib_file = concat_dir_and_file (mc_home, "Syntax");
f = fopen (lib_file, "r");
g_free (lib_file);
if (!f)
return -1;
}
args[0] = 0;
for (;;) {
line++;
MC_PTR_FREE (l);
if (!read_one_line (&l, f))
break;
(void)get_args (l, args, 1023); /* Final NULL */
if (!args[0])
continue;
/* Looking for `include ...` lines before first `file ...` ones */
if (!found && !strcmp (args[0], "include")) {
if (g)
continue;
if (!args[1] || !(g = open_include_file (args[1]))) {
result = line;
break;
}
goto found_type;
}
/* looking for `file ...' lines only */
if (strcmp (args[0], "file")) {
continue;
}
found = 1;
/* must have two args or report error */
if (!args[1] || !args[2]) {
result = line;
break;
}
if (pnames && *pnames) {
/* 1: just collecting a list of names of rule sets */
/* Reallocate the list if required */
if (count % NENTRIES == 0) {
if ((tmpnames = (char**) g_realloc (*pnames, (count + NENTRIES
+ 1) * sizeof (char*))) != NULL)
*pnames = tmpnames;
else
abort ();
}
(*pnames)[count++] = g_strdup (args[2]);
(*pnames)[count] = NULL;
} 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;
q = mc_search(args[1], editor_file, MC_SEARCH_T_REGEX);
/* does filename match arg 1 ? */
if (!q && args[3]) {
/* does first line match arg 3 ? */
q = mc_search(args[3], first_line, MC_SEARCH_T_REGEX);
}
if (q) {
int line_error;
char *syntax_type;
found_type:
syntax_type = args[2];
line_error = edit_read_syntax_rules (edit, g ? g : f, args, 1023);
if (line_error) {
if (!error_file_name) /* an included file */
result = line + line_error;
else
result = line_error;
} else {
MC_PTR_FREE (edit->syntax_type);
edit->syntax_type = g_strdup (syntax_type);
/* if there are no rules then turn off syntax highlighting for speed */
if (!g && !edit->rules[1])
if (!edit->rules[0]->keyword[1] && !edit->rules[0]->spelling) {
edit_free_syntax_rules (edit);
break;
}
}
if (g) {
fclose (g);
g = NULL;
} else {
break;
}
}
}
}
MC_PTR_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;
}
/*
* Load rules into edit struct. Either edit or *pnames must be NULL. If
* edit is NULL, a list of types will be stored into names. If type is
* NULL, then the type will be selected according to the filename.
*/
void
edit_load_syntax (WEdit *edit, char ***pnames, const char *type)
{
int r;
char *f = NULL;
if (option_auto_syntax)
type = NULL;
edit_free_syntax_rules (edit);
if (!tty_use_colors ())
return;
if (!option_syntax_highlighting && (!pnames || !*pnames))
return;
if (edit) {
if (!edit->filename)
return;
if (!*edit->filename && !type)
return;
}
f = concat_dir_and_file (home_dir, EDIT_SYNTAX_FILE);
r = edit_read_syntax_file (edit, pnames, f, edit ? edit->filename : 0,
get_first_editor_line (edit), type);
if (r == -1) {
edit_free_syntax_rules (edit);
message (D_ERROR, _(" Load syntax file "),
_(" Cannot open file %s \n %s "), f,
unix_error_string (errno));
} else if (r) {
edit_free_syntax_rules (edit);
message (D_ERROR, _(" Load syntax file "),
_(" Error in file %s on line %d "),
error_file_name ? error_file_name : f, r);
MC_PTR_FREE (error_file_name);
} else {
/* succeeded */
}
g_free (f);
}
const char *
edit_get_syntax_type (const WEdit *edit)
{
return edit->syntax_type;
}