/* GTK - The GIMP Toolkit * Copyright (C) 2015 Takao Fujiwara * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ #include #include #include #include #include #include #include #include "gtkcomposetable.h" #include "gtkimcontextsimple.h" #include "gtkprivate.h" #define GTK_COMPOSE_TABLE_MAGIC "GtkComposeTable" #define GTK_COMPOSE_TABLE_VERSION (4) extern const GtkComposeTable builtin_compose_table; /* Maximum length of sequences we parse */ #define MAX_COMPOSE_LEN 20 /* Implemented from g_str_hash() */ static guint32 data_hash (gconstpointer v, int length) { const guint16 *p, *head; unsigned char c; guint32 h = 5381; for (p = v, head = v; (p - head) < length; p++) { c = 0x00ff & (*p >> 8); h = (h << 5) + h + c; c = 0x00ff & *p; h = (h << 5) + h + c; } return h; } static guint32 sequence_hash (gconstpointer v) { const gunichar *p = v; int i; for (i = 0; p[i]; i++) ; return data_hash (v, i); } static gboolean sequence_equal (gconstpointer v1, gconstpointer v2) { const gunichar *p1 = v1; const gunichar *p2 = v2; int i; for (i = 0; p1[i] && p2[i] && p1[i] == p2[i]; i++) ; return p1[i] == p2[i]; } typedef struct { GHashTable *sequences; GList *files; const char *compose_file; gboolean found_include; } GtkComposeParser; static GtkComposeParser * parser_new (void) { GtkComposeParser *parser; parser = g_new (GtkComposeParser, 1); parser->sequences = g_hash_table_new_full (sequence_hash, sequence_equal, g_free, g_free); parser->files = NULL; parser->compose_file = NULL; parser->found_include = FALSE; return parser; } static void parser_free (GtkComposeParser *parser) { g_hash_table_unref (parser->sequences); g_list_free_full (parser->files, g_free); g_free (parser); } static gboolean is_codepoint (const char *str) { int i; /* 'U' is not code point but 'U00C0' is code point */ if (str[0] == '\0' || str[0] != 'U' || str[1] == '\0') return FALSE; for (i = 1; str[i] != '\0'; i++) { if (!g_ascii_isxdigit (str[i])) return FALSE; } return TRUE; } static char * parse_compose_value (const char *val, const char *line) { const char *p; GString *value; gunichar ch; char *endp; value = g_string_new (""); if (val[0] != '"') { g_warning ("Only strings supported after ':': %s: %s", val, line); goto fail; } p = val + 1; while (*p) { if (*p == '\"') { return g_string_free (value, FALSE); } if (p[1] == '\0') { g_warning ("Missing closing '\"': %s: %s", val, line); goto fail; } else if (*p == '\\') { if (p[1] == '"') { g_string_append_c (value, '"'); p += 2; } else if (p[1] == '\\') { g_string_append_c (value, '\\'); p += 2; } else if (p[1] >= '0' && p[1] < '8') { ch = g_ascii_strtoll (p + 1, &endp, 8); if (ch == 0) { g_warning ("Invalid escape sequence: %s: %s", val, line); goto fail; } g_string_append_unichar (value, ch); p = endp; } else if (p[1] == 'x' || p[1] == 'X') { ch = g_ascii_strtoll (p + 2, &endp, 16); if (ch == 0) { g_warning ("Invalid escape sequence: %s: %s", val, line); goto fail; } g_string_append_unichar (value, ch); p = endp; } else { g_warning ("Invalid escape sequence: %s: %s", val, line); goto fail; } } else { ch = g_utf8_get_char (p); g_string_append_unichar (value, ch); p = g_utf8_next_char (p); } } fail: g_string_free (value, TRUE); return NULL; } static gunichar * parse_compose_sequence (const char *seq, const char *line) { char **words = g_strsplit (seq, "<", -1); int i; int n = 0; gunichar *sequence = NULL; if (g_strv_length (words) < 2) { g_warning ("key sequence format is ...: %s", line); goto fail; } for (i = 1; words[i] != NULL; i++) { char *start = words[i]; char *end = strchr (words[i], '>'); char *match; gunichar codepoint; if (words[i][0] == '\0') continue; if (start == NULL || end == NULL || end <= start) { g_warning ("key sequence format is ...: %s", line); goto fail; } match = g_strndup (start, end - start); sequence = g_realloc (sequence, sizeof (gunichar) * (n + 2)); if (is_codepoint (match)) { codepoint = (gunichar) g_ascii_strtoll (match + 1, NULL, 16); sequence[n] = codepoint; sequence[n + 1] = 0; } else { codepoint = (gunichar) gdk_keyval_from_name (match); sequence[n] = codepoint; sequence[n + 1] = 0; } if (codepoint == GDK_KEY_VoidSymbol) g_warning ("Could not get code point of keysym %s", match); g_free (match); n++; } if (0 == n || n > MAX_COMPOSE_LEN) { g_warning ("Suspicious compose sequence length (%d). Are you sure this is right?: %s", n, line); goto fail; } g_strfreev (words); return sequence; fail: g_strfreev (words); g_free (sequence); return NULL; } static void parser_parse_file (GtkComposeParser *parser, const char *path); char * gtk_compose_table_get_x11_compose_file_dir (void) { char * compose_file_dir; #if defined (X11_DATA_PREFIX) compose_file_dir = g_strdup (X11_DATA_PREFIX "/share/X11/locale"); #else compose_file_dir = g_build_filename (_gtk_get_datadir (), "X11", "locale", NULL); #endif return compose_file_dir; } /* Substitute %H, %L and %S */ static char * handle_substitutions (const char *start, int length) { GString *s; const char *locale_name; const char *p; s = g_string_new (""); locale_name = getenv ("LANG"); for (p = start; *p && p < start + length; p++) { if (*p != '%') { g_string_append_c (s, *p); } else { char *x11_compose_file_dir; char *path; switch (p[1]) { case 'H': p++; g_string_append (s, g_get_home_dir ()); break; case 'L': p++; x11_compose_file_dir = gtk_compose_table_get_x11_compose_file_dir (); path = g_build_filename (x11_compose_file_dir, locale_name, "Compose", NULL); g_string_append (s, path); g_free (path); g_free (x11_compose_file_dir); break; case 'S': p++; x11_compose_file_dir = gtk_compose_table_get_x11_compose_file_dir (); g_string_append (s, x11_compose_file_dir); g_free (x11_compose_file_dir); break; default: ; /* do nothing, next iteration handles p[1] */ } } } return g_string_free (s, FALSE); } static void add_sequence (gunichar *sequence, int len, const char *value, gpointer data) { GtkComposeParser *parser = data; gunichar *seq; seq = g_new (gunichar, len + 1); memcpy (seq, sequence, (len + 1) * sizeof (gunichar)); g_hash_table_replace (parser->sequences, seq, g_strdup (value)); } static void parser_add_default_sequences (GtkComposeParser *parser) { const GtkComposeTable *table = &builtin_compose_table; gtk_compose_table_foreach (table, add_sequence, parser); } static void parser_handle_include (GtkComposeParser *parser, const char *line) { const char *p; const char *start, *end; char *path; parser->found_include = TRUE; p = line + strlen ("include "); while (g_ascii_isspace (*p)) p++; if (*p != '"') goto error; p++; start = p; while (*p && *p != '"') p++; if (*p != '"') goto error; end = p; p++; while (g_ascii_isspace (*p)) p++; if (*p && *p != '#') goto error; if (end - start == 2 && strncmp ("%L", start, end - start) == 0) { parser_add_default_sequences (parser); } else { path = handle_substitutions (start, end - start); parser_parse_file (parser, path); g_free (path); } return; error: g_warning ("Could not parse include: %s", line); } static void parser_parse_line (GtkComposeParser *parser, const char *line) { char **components = NULL; gunichar *sequence = NULL; char *value = NULL; if (line[0] == '\0' || line[0] == '#') return; if (g_str_has_prefix (line, "include ")) { parser_handle_include (parser, line); return; } components = g_strsplit (line, ":", 2); if (components[1] == NULL) { g_warning ("No delimiter ':': %s", line); goto fail; } sequence = parse_compose_sequence (g_strstrip (components[0]), line); if (sequence == NULL) goto fail; value = parse_compose_value (g_strstrip (components[1]), line); if (value == NULL) goto fail; g_strfreev (components); g_hash_table_replace (parser->sequences, sequence, value); return; fail: g_strfreev (components); g_free (sequence); g_free (value); } static void parser_read_file (GtkComposeParser *parser, const char *compose_file) { char *contents = NULL; char **lines = NULL; gsize length = 0; GError *error = NULL; if (!g_file_get_contents (compose_file, &contents, &length, &error)) { g_warning ("%s", error->message); g_error_free (error); return; } lines = g_strsplit (contents, "\n", -1); for (int i = 0; lines[i] != NULL; i++) parser_parse_line (parser, lines[i]); g_strfreev (lines); g_free (contents); } /* Remove sequences that can be handled algorithmically, * sequences with non-BMP keys, and sequences that produce * empty strings. */ static void parser_remove_duplicates (GtkComposeParser *parser) { GHashTableIter iter; gunichar *sequence; char *value; GString *output; output = g_string_new (""); g_hash_table_iter_init (&iter, parser->sequences); while (g_hash_table_iter_next (&iter, (gpointer *)&sequence, (gpointer *)&value)) { static guint keysyms[MAX_COMPOSE_LEN + 1]; int i; int n_compose = 0; gboolean remove_sequence = FALSE; if (value[0] == '\0') { remove_sequence = TRUE; goto next; } for (i = 0; i < MAX_COMPOSE_LEN + 1; i++) keysyms[i] = 0; for (i = 0; i < MAX_COMPOSE_LEN + 1; i++) { guint codepoint = sequence[i]; keysyms[i] = codepoint; if (codepoint == 0) break; if (codepoint > 0xffff) { remove_sequence = TRUE; goto next; } n_compose++; } if (gtk_check_algorithmically (keysyms, n_compose, output)) { if (strcmp (value, output->str) == 0) remove_sequence = TRUE; } next: if (remove_sequence) g_hash_table_iter_remove (&iter); } g_string_free (output, TRUE); } static void parser_compute_max_compose_len (GtkComposeParser *parser, int *max_compose_len, int *n_first, int *size) { GHashTableIter iter; gunichar *sequence; char *value; int max = 0; int count = 0; GHashTable *first; first = g_hash_table_new (NULL, NULL); g_hash_table_iter_init (&iter, parser->sequences); while (g_hash_table_iter_next (&iter, (gpointer *)&sequence, (gpointer *)&value)) { g_hash_table_add (first, GUINT_TO_POINTER (sequence[0])); for (int i = 0; i < MAX_COMPOSE_LEN + 1; i++) { if (sequence[i] == 0) { count += i; if (max < i) max = i; break; } } } *max_compose_len = max; *n_first = g_hash_table_size (first); *size = count; g_hash_table_unref (first); } static inline int sequence_length (gpointer a) { gunichar *seq = a; int i; for (i = 0; seq[i]; i++) ; return i; } static int sequence_compare (gpointer a, gpointer b, gpointer data) { gunichar *seq_a = a; gunichar *seq_b = b; int i; gunichar code_a, code_b; int len_a, len_b; code_a = seq_a[0]; code_b = seq_b[0]; if (code_a != code_b) return code_a - code_b; len_a = sequence_length (a); len_b = sequence_length (b); if (len_a != len_b) return len_a - len_b; for (i = 1; i < len_a; i++) { code_a = seq_a[i]; code_b = seq_b[i]; if (code_a != code_b) return code_a - code_b; } return 0; } guint32 gtk_compose_table_data_hash (const guint16 *data, int max_seq_len, int n_seqs) { gsize n_index_stride; gsize length; n_index_stride = max_seq_len + 2; if (!g_size_checked_mul (&length, n_index_stride, n_seqs)) { g_critical ("Overflow in the compose sequences"); return 0; } return data_hash (data, length); } static char * gtk_compose_hash_get_cache_path (guint32 hash) { char *basename = NULL; char *dir = NULL; char *path = NULL; basename = g_strdup_printf ("%08x.cache", hash); dir = g_build_filename (g_get_user_cache_dir (), "gtk-4.0", "compose", NULL); path = g_build_filename (dir, basename, NULL); if (g_mkdir_with_parents (dir, 0755) != 0) { g_warning ("Failed to mkdir %s", dir); g_free (path); path = NULL; } g_free (dir); g_free (basename); return path; } static char * gtk_compose_table_serialize (GtkComposeTable *compose_table, gsize *count) { char *p, *contents; gsize header_length, total_length; guint16 bytes; const char *header = GTK_COMPOSE_TABLE_MAGIC; const guint16 version = GTK_COMPOSE_TABLE_VERSION; guint16 max_seq_len = compose_table->max_seq_len; guint16 n_index_size = compose_table->n_index_size; guint16 data_size = compose_table->data_size; guint16 n_chars = compose_table->n_chars; guint32 i; g_return_val_if_fail (compose_table != NULL, NULL); g_return_val_if_fail (max_seq_len > 0, NULL); g_return_val_if_fail (n_index_size > 0, NULL); header_length = strlen (header); total_length = header_length + sizeof (guint16) * (5 + data_size) + n_chars; if (count) *count = total_length; p = contents = g_malloc (total_length); memcpy (p, header, header_length); p += header_length; #define APPEND_GUINT16(elt) \ bytes = GUINT16_TO_BE (elt); \ memcpy (p, &bytes, sizeof (guint16)); \ p += sizeof (guint16); APPEND_GUINT16 (version); APPEND_GUINT16 (max_seq_len); APPEND_GUINT16 (n_index_size); APPEND_GUINT16 (data_size); APPEND_GUINT16 (n_chars); for (i = 0; i < data_size; i++) { APPEND_GUINT16 (compose_table->data[i]); } if (compose_table->n_chars > 0) memcpy (p, compose_table->char_data, compose_table->n_chars); #undef APPEND_GUINT16 return contents; } static GtkComposeTable * gtk_compose_table_load_cache (const char *compose_file, gboolean *found_old_cache) { guint32 hash; char *path = NULL; char *contents = NULL; char *p; GStatBuf original_buf; GStatBuf cache_buf; gsize total_length; GError *error = NULL; guint16 bytes; guint16 version; guint16 max_seq_len; guint16 n_index_size; guint16 data_size; guint16 n_chars; guint32 i; guint16 *data = NULL; char *char_data = NULL; GtkComposeTable *retval; *found_old_cache = FALSE; hash = g_str_hash (compose_file); if ((path = gtk_compose_hash_get_cache_path (hash)) == NULL) return NULL; if (!g_file_test (path, G_FILE_TEST_EXISTS)) goto out_load_cache; g_stat (path, &cache_buf); g_lstat (compose_file, &original_buf); if (original_buf.st_mtime > cache_buf.st_mtime) goto out_load_cache; g_stat (compose_file, &original_buf); if (original_buf.st_mtime > cache_buf.st_mtime) goto out_load_cache; if (!g_file_get_contents (path, &contents, &total_length, &error)) { g_warning ("Failed to get cache content %s: %s", path, error->message); g_error_free (error); goto out_load_cache; } #define GET_GUINT16(elt) \ memcpy (&bytes, p, sizeof (guint16)); \ elt = GUINT16_FROM_BE (bytes); \ p += sizeof (guint16); p = contents; if (g_ascii_strncasecmp (p, GTK_COMPOSE_TABLE_MAGIC, strlen (GTK_COMPOSE_TABLE_MAGIC)) != 0) { g_warning ("The file is not a GtkComposeTable cache file %s", path); goto out_load_cache; } p += strlen (GTK_COMPOSE_TABLE_MAGIC); if (p - contents > total_length) { g_warning ("Broken cache content %s at head", path); goto out_load_cache; } GET_GUINT16 (version); if (version != GTK_COMPOSE_TABLE_VERSION) { if (version < GTK_COMPOSE_TABLE_VERSION) *found_old_cache = TRUE; goto out_load_cache; } GET_GUINT16 (max_seq_len); GET_GUINT16 (n_index_size); GET_GUINT16 (data_size); GET_GUINT16 (n_chars); if (max_seq_len == 0 || data_size == 0) { g_warning ("cache size is not correct %d %d", max_seq_len, data_size); goto out_load_cache; } data = g_new0 (guint16, data_size); for (i = 0; i < data_size; i++) { GET_GUINT16 (data[i]); } if (n_chars > 0) { char_data = g_new (char, n_chars + 1); memcpy (char_data, p, n_chars); char_data[n_chars] = '\0'; } retval = g_new0 (GtkComposeTable, 1); retval->data = data; retval->max_seq_len = max_seq_len; retval->n_index_size = n_index_size; retval->data_size = data_size; retval->char_data = char_data; retval->n_chars = n_chars; retval->id = hash; g_free (contents); g_free (path); return retval; #undef GET_GUINT16 out_load_cache: g_free (data); g_free (char_data); g_free (contents); g_free (path); return NULL; } static void gtk_compose_table_save_cache (GtkComposeTable *compose_table) { char *path = NULL; char *contents = NULL; GError *error = NULL; gsize length = 0; if ((path = gtk_compose_hash_get_cache_path (compose_table->id)) == NULL) return; contents = gtk_compose_table_serialize (compose_table, &length); if (contents == NULL) { g_warning ("Failed to serialize compose table %s", path); goto out_save_cache; } if (!g_file_set_contents (path, contents, length, &error)) { g_warning ("Failed to save compose table %s: %s", path, error->message); g_error_free (error); goto out_save_cache; } out_save_cache: g_free (contents); g_free (path); } static GtkComposeTable * parser_get_compose_table (GtkComposeParser *parser) { guint16 *data; GtkComposeTable *table; guint16 encoded_value; GString *char_data; int max_compose_len; GList *sequences; GList *list; int i; int size; int n_first; int first_pos; int rest_pos; int index_rowstride; int n_sequences; gunichar current_first; parser_remove_duplicates (parser); if (g_hash_table_size (parser->sequences) == 0) return NULL; parser_compute_max_compose_len (parser, &max_compose_len, &n_first, &size); sequences = g_hash_table_get_keys (parser->sequences); sequences = g_list_sort_with_data (sequences, (GCompareDataFunc) sequence_compare, NULL); index_rowstride = max_compose_len + 2; data = g_new0 (guint16, n_first * index_rowstride + size); char_data = g_string_new (""); n_sequences = 0; current_first = 0; first_pos = 0; rest_pos = n_first * index_rowstride; for (list = sequences; list != NULL; list = list->next) { gunichar *sequence = list->data; char *value = g_hash_table_lookup (parser->sequences, sequence); int len = sequence_length (sequence); g_assert (1 <= len && len <= max_compose_len); /* Encode the value. If the value is a single * character with a value smaller than 1 << 15, * we just use it directly. * Otherwise, we store the value as string and * put the offset into the table, with the high * bit set. */ if (g_utf8_strlen (value, -1) == 1 && g_utf8_get_char (value) < 0x8000) { encoded_value = (guint16) g_utf8_get_char (value); } else { if (char_data->len > 0) g_string_append_c (char_data, 0); if (char_data->len >= 0x8000) { g_warning ("GTK can't handle compose tables this large (%s)", parser->compose_file ? parser->compose_file : ""); g_free (data); g_string_free (char_data, TRUE); return NULL; } encoded_value = (guint16) (char_data->len | 0x8000); g_string_append (char_data, value); } if (sequence[0] != current_first) { g_assert (sequence[0] <= 0xffff); if (current_first != 0) first_pos += index_rowstride; current_first = (guint16)sequence[0]; data[first_pos] = (guint16)sequence[0]; for (i = 1; i < index_rowstride; i++) data[first_pos + i] = rest_pos; } for (i = 1; i < len; i++) { g_assert (sequence[i] != 0); g_assert (sequence[i] <= 0xffff); data[rest_pos + i - 1] = (guint16) sequence[i]; } g_assert (encoded_value != 0); data[rest_pos + len - 1] = encoded_value; n_sequences++; rest_pos += len; for (i = len + 1; i < index_rowstride; i++) data[first_pos + i] = rest_pos; for (i = 1; i + 1 < index_rowstride; i++) g_assert (data[first_pos + i] <= data[first_pos + i + 1]); } g_assert (first_pos + index_rowstride == n_first * index_rowstride); g_assert (rest_pos == n_first * index_rowstride + size); if (char_data->len > 0) g_string_append_c (char_data, 0); table = g_new0 (GtkComposeTable, 1); table->data = data; table->data_size = n_first * index_rowstride + size; table->max_seq_len = max_compose_len; table->n_index_size = n_first; table->n_chars = char_data->len; table->char_data = g_string_free (char_data, FALSE); table->n_sequences = n_sequences; table->id = g_str_hash (parser->compose_file); g_list_free (sequences); return table; } static char * canonicalize_filename (const char *parent_path, const char *path) { GFile *file; char *retval; if (path[0] != '/' && parent_path) { GFile *orig = g_file_new_for_path (parent_path); GFile *parent = g_file_get_parent (orig); file = g_file_resolve_relative_path (parent, path); g_object_unref (parent); g_object_unref (orig); } else { file = g_file_new_for_path (path); } retval = g_file_get_path (file); g_object_unref (file); return retval; } static void parser_parse_file (GtkComposeParser *parser, const char *compose_file) { char *path; // stash the name for the table hash if (parser->compose_file == NULL) parser->compose_file = compose_file; path = canonicalize_filename (parser->compose_file, compose_file); if (g_list_find_custom (parser->files, path, (GCompareFunc)strcmp)) { g_warning ("include cycle detected: %s", compose_file); g_free (path); return; } parser->files = g_list_prepend (parser->files, path); parser_read_file (parser, path); parser->files = g_list_remove (parser->files, path); } GtkComposeTable * gtk_compose_table_parse (const char *compose_file, gboolean *found_include) { GtkComposeParser *parser; GtkComposeTable *compose_table; parser = parser_new (); parser_parse_file (parser, compose_file); compose_table = parser_get_compose_table (parser); if (found_include) *found_include = parser->found_include; parser_free (parser); return compose_table; } static gboolean rewrite_compose_file (const char *compose_file) { static const char *prefix = "# GTK has rewritten this file to add the line:\n" "\n" "include \"%L\"\n" "\n" "# This is necessary to add your own Compose sequences\n" "# in addition to the builtin sequences of GTK. If this\n" "# is not what you want, just remove that line.\n" "#\n" "# A backup of the previous file contents has been made.\n" "\n" "\n"; char *path = NULL; char *content = NULL; gsize content_len; GFile *file = NULL; GOutputStream *stream = NULL; gboolean ret = FALSE; path = canonicalize_filename (NULL, compose_file); if (!g_file_get_contents (path, &content, &content_len, NULL)) goto out; file = g_file_new_for_path (path); stream = G_OUTPUT_STREAM (g_file_replace (file, NULL, TRUE, 0, NULL, NULL)); if (stream == NULL) goto out; if (!g_output_stream_write (stream, prefix, strlen (prefix), NULL, NULL)) goto out; if (!g_output_stream_write (stream, content, content_len, NULL, NULL)) goto out; if (!g_output_stream_close (stream, NULL, NULL)) goto out; ret = TRUE; out: g_clear_object (&stream); g_clear_object (&file); g_clear_pointer (&path, g_free); g_clear_pointer (&content, g_free); return ret; } GtkComposeTable * gtk_compose_table_new_with_file (const char *compose_file) { GtkComposeTable *compose_table; gboolean found_old_cache = FALSE; gboolean found_include = FALSE; g_assert (compose_file != NULL); compose_table = gtk_compose_table_load_cache (compose_file, &found_old_cache); if (compose_table != NULL) return compose_table; parse: compose_table = gtk_compose_table_parse (compose_file, &found_include); /* This is where we apply heuristics to avoid breaking users existing configurations * with the change to not always add the default sequences. * * If we find a cache that was generated before 4.4, and the Compose file * does not have an include, and doesn't contain so many sequences that it * is probably a copy of the system one, we take steps to keep things working, * and thell the user about it. */ if (found_old_cache && !found_include && compose_table != NULL && compose_table->n_sequences < 100) { if (rewrite_compose_file (compose_file)) { g_warning ("\nSince GTK 4.4, Compose files replace the builtin\n" "compose sequences. To keep them and add your own\n" "sequences on top, the line:\n" "\n" " include \"%%L\"\n" "\n" "has been added to the Compose file\n%s.\n", compose_file); goto parse; } else { g_warning ("\nSince GTK 4.4, Compose files replace the builtin\n" "compose sequences. To keep them and add your own\n" "sequences on top, you need to add the line:\n" "\n" " include \"%%L\"\n" "\n" "to the Compose file\n%s.\n", compose_file); } } if (compose_table != NULL) gtk_compose_table_save_cache (compose_table); return compose_table; } GtkComposeTable * gtk_compose_table_new_with_data (const guint16 *data, int max_seq_len, int n_seqs) { GtkComposeParser *parser; GtkComposeTable *compose_table; int i; parser = parser_new (); for (i = 0; i < n_seqs; i++) { const guint16 *seq = data + i * (max_seq_len + 2); guint16 *sequence; gunichar ch; char buf[8] = { 0, }; sequence = g_new0 (guint16, max_seq_len + 1); memcpy (sequence, seq, sizeof (guint16) * max_seq_len); ch = ((gunichar)seq[max_seq_len]) << 16 | (gunichar)seq[max_seq_len + 1]; g_unichar_to_utf8 (ch, buf); g_hash_table_replace (parser->sequences, sequence, g_strdup (buf)); } compose_table = parser_get_compose_table (parser); parser_free (parser); return compose_table; } static int compare_seq (const void *key, const void *value) { int i = 0; const guint *keysyms = key; const guint16 *seq = value; while (keysyms[i]) { if (keysyms[i] < seq[i]) return -1; else if (keysyms[i] > seq[i]) return 1; i++; } return 0; } static int compare_seq_index (const void *key, const void *value) { const guint *keysyms = key; const guint16 *seq = value; if (keysyms[0] < seq[0]) return -1; else if (keysyms[0] > seq[0]) return 1; return 0; } /* * gtk_compose_table_check: * @table: the table to check * @compose_buffer: the key vals to match * @n_compose: number of non-zero key vals in @compose_buffer * @compose_finish: (out): return location for whether there may be longer matches * @compose_match: (out): return location for whether there is a match * @output: (out) (caller-allocates): return location for the match values * * Looks for matches for a key sequence in @table. * * Returns: %TRUE if there were any matches, %FALSE otherwise */ gboolean gtk_compose_table_check (const GtkComposeTable *table, const guint *compose_buffer, int n_compose, gboolean *compose_finish, gboolean *compose_match, GString *output) { int len; guint16 *seq_index; guint16 *seq; int i; gboolean match; gunichar value; if (compose_finish) *compose_finish = FALSE; if (compose_match) *compose_match = FALSE; /* Will never match, if the sequence in the compose buffer is longer * than the sequences in the table. Further, compare_seq (key, val) * will overrun val if key is longer than val. */ if (n_compose > table->max_seq_len) return FALSE; seq_index = bsearch (compose_buffer, table->data, table->n_index_size, sizeof (guint16) * (table->max_seq_len + 2), compare_seq_index); if (!seq_index) return FALSE; if (n_compose == 1) return TRUE; seq = NULL; match = FALSE; value = 0; for (i = n_compose - 1; i < table->max_seq_len; i++) { len = i + 1; if (seq_index[len + 1] - seq_index[len] > 0) { seq = bsearch (compose_buffer + 1, table->data + seq_index[len], (seq_index[len + 1] - seq_index[len]) / len, sizeof (guint16) * len, compare_seq); if (seq) { if (i == n_compose - 1) { value = seq[len - 1]; if ((value & (1 << 15)) != 0) g_string_append (output, &table->char_data[value & ~(1 << 15)]); else g_string_append_unichar (output, value); match = TRUE; } else { if (match) { if (compose_match) *compose_match = TRUE; } return TRUE; } } } } if (match) { if (compose_match) *compose_match = TRUE; if (compose_finish) *compose_finish = TRUE; return TRUE; } return FALSE; } void gtk_compose_table_get_prefix (const GtkComposeTable *table, const guint *compose_buffer, int n_compose, int *prefix) { int index_stride = table->max_seq_len + 2; int p = 0; for (int idx = 0; idx < table->n_index_size; idx++) { const guint16 *seq_index = table->data + (idx * index_stride); if (seq_index[0] == compose_buffer[0]) { p = 1; for (int i = 1; i < table->max_seq_len + 1; i++) { int len = i; for (int j = seq_index[i]; j < seq_index[i + 1]; j += len) { int k; for (k = 0; k < MIN (len, n_compose) - 1; k++) { if (compose_buffer[k + 1] != table->data[j + k]) break; } p = MAX (p, k + 1); } } break; } } *prefix = p; } void gtk_compose_table_foreach (const GtkComposeTable *table, GtkComposeSequenceCallback callback, gpointer data) { int index_stride = table->max_seq_len + 2; gunichar *sequence; sequence = g_newa (gunichar, table->max_seq_len + 1); for (int idx = 0; idx < table->n_index_size; idx++) { const guint16 *seq_index = table->data + (idx * index_stride); for (int i = 1; i <= table->max_seq_len; i++) { int len = i; g_assert (seq_index[i] <= seq_index[i + 1]); g_assert (seq_index[i + 1] <= table->data_size); g_assert ((seq_index[i + 1] - seq_index[i]) % len == 0); for (int j = seq_index[i]; j < seq_index[i + 1]; j += len) { char buf[8] = { 0, }; guint16 encoded_value; char *value; sequence[0] = seq_index[0]; for (int k = 1; k < len; k++) sequence[k] = (gunichar) table->data[j + k - 1]; sequence[len] = 0; encoded_value = table->data[j + len - 1]; g_assert (encoded_value != 0); if ((encoded_value & (1 << 15)) != 0) { int char_offset = encoded_value & ~(1 << 15); g_assert (char_offset < table->n_chars); value = &table->char_data[char_offset]; } else { g_unichar_to_utf8 ((gunichar)encoded_value, buf); value = buf; } callback (sequence, len, value, data); } } } } /* Checks if a keysym is a dead key. * Dead key keysym values are defined in ../gdk/gdkkeysyms.h and the * first is GDK_KEY_dead_grave. As X.Org is updated, more dead keys * are added and we need to update the upper limit. */ #define IS_DEAD_KEY(k) \ ((k) >= GDK_KEY_dead_grave && (k) <= GDK_KEY_dead_greek) gboolean gtk_check_algorithmically (const guint *compose_buffer, int n_compose, GString *output) { int i; g_string_set_size (output, 0); for (i = 0; i < n_compose && IS_DEAD_KEY (compose_buffer[i]); i++) ; /* Can't combine if there's no base character: incomplete sequence */ if (i == n_compose) return TRUE; if (i > 0 && i == n_compose - 1) { GString *input; char *nfc; gunichar ch; ch = gdk_keyval_to_unicode (compose_buffer[i]); /* We don't allow combining with non-letters */ if (!g_unichar_isalpha (ch)) return FALSE; input = g_string_sized_new (4 * n_compose); g_string_append_unichar (input, ch); i--; while (i >= 0) { switch (compose_buffer[i]) { #define CASE(keysym, unicode) \ case GDK_KEY_dead_##keysym: g_string_append_unichar (input, unicode); break CASE (grave, 0x0300); CASE (acute, 0x0301); CASE (circumflex, 0x0302); case GDK_KEY_dead_tilde: if (g_unichar_get_script (ch) == G_UNICODE_SCRIPT_GREEK) g_string_append_unichar (input, 0x342); /* combining perispomeni */ else g_string_append_unichar (input, 0x303); /* combining tilde */ break; CASE (macron, 0x0304); CASE (breve, 0x0306); CASE (abovedot, 0x0307); CASE (diaeresis, 0x0308); CASE (abovering, 0x30A); CASE (hook, 0x0309); CASE (doubleacute, 0x030B); CASE (caron, 0x030C); CASE (cedilla, 0x0327); CASE (ogonek, 0x0328); /* Legacy use for dasia, 0x314.*/ CASE (iota, 0x0345); CASE (voiced_sound, 0x3099); /* Per Markus Kuhn keysyms.txt file. */ CASE (semivoiced_sound, 0x309A); /* Per Markus Kuhn keysyms.txt file. */ CASE (belowdot, 0x0323); CASE (horn, 0x031B); /* Legacy use for psili, 0x313 (or 0x343). */ CASE (stroke, 0x335); CASE (abovecomma, 0x0313); /* Equivalent to psili */ CASE (abovereversedcomma, 0x0314); /* Equivalent to dasia */ CASE (doublegrave, 0x30F); CASE (belowring, 0x325); CASE (belowmacron, 0x331); CASE (belowcircumflex, 0x32D); CASE (belowtilde, 0x330); CASE (belowbreve, 0x32e); CASE (belowdiaeresis, 0x324); CASE (invertedbreve, 0x32f); CASE (belowcomma, 0x326); CASE (lowline, 0x332); CASE (aboveverticalline, 0x30D); CASE (belowverticalline, 0x329); CASE (longsolidusoverlay, 0x338); CASE (a, 0x363); CASE (A, 0x363); CASE (e, 0x364); CASE (E, 0x364); CASE (i, 0x365); CASE (I, 0x365); CASE (o, 0x366); CASE (O, 0x366); CASE (u, 0x367); CASE (U, 0x367); CASE (small_schwa, 0x1DEA); CASE (capital_schwa, 0x1DEA); #undef CASE default: g_string_append_unichar (input, gdk_keyval_to_unicode (compose_buffer[i])); } i--; } nfc = g_utf8_normalize (input->str, input->len, G_NORMALIZE_NFC); g_string_assign (output, nfc); g_free (nfc); g_string_free (input, TRUE); return TRUE; } return FALSE; }