/* * stardict.c: StarDict API * * Copyright (c) 2013, Přemysl Janouch * All rights reserved. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ #include #include #include #include #include #include #include "stardict.h" /** Describes a single entry in the dictionary index. */ typedef struct stardict_index_entry StardictIndexEntry; /** Describes a single entry in the synonyms index. */ typedef struct stardict_synonym_entry StardictSynonymEntry; /** Helper class for reading .ifo files. */ typedef struct ifo_reader IfoReader; typedef enum stardict_version StardictVersion; enum stardict_version { SD_VERSION_2_4_2, SD_VERSION_3_0_0 }; struct stardict_info { gchar * path; StardictVersion version; gchar * book_name; gulong word_count; gulong syn_word_count; gulong idx_filesize; gulong idx_offset_bits; gchar * author; gchar * email; gchar * website; gchar * description; gchar * date; gchar * same_type_sequence; }; struct stardict_index_entry { gchar * name; //!< The word in utf-8 guint64 data_offset; //!< Offset of the definition guint32 data_size; //!< Size of the definition }; struct stardict_synonym_entry { gchar * word; //!< A synonymous word guint32 original_word; //!< The original word's index }; struct ifo_reader { gchar * data; //!< File data terminated with \0 gchar * data_end; //!< Where the final \0 char. is gchar * start; //!< Start of the current token gchar * key; //!< The key (points into @a data) gchar * value; //!< The value (points into @a data) }; // --- Utilities --------------------------------------------------------------- /** Read the whole stream into a byte array. */ static gboolean stream_read_all (GByteArray *ba, GInputStream *is, GError **error) { guint8 buffer[1024 * 64]; gsize bytes_read; while (g_input_stream_read_all (is, buffer, sizeof buffer, &bytes_read, NULL, error)) { g_byte_array_append (ba, buffer, bytes_read); if (bytes_read < sizeof buffer) return TRUE; } return FALSE; } /** Read a null-terminated string from a data input stream. */ static gchar * stream_read_string (GDataInputStream *dis, GError **error) { gsize length; gchar *s = g_data_input_stream_read_upto (dis, "", 1, &length, NULL, error); if (!s) return NULL; GError *err = NULL; g_data_input_stream_read_byte (dis, NULL, &err); if (err) { g_free (s); g_propagate_error (error, err); return NULL; } return s; } /** String compare function used for StarDict indexes. */ static inline gint stardict_strcmp (const gchar *s1, const gchar *s2) { gint a; a = g_ascii_strcasecmp (s1, s2); return a ? a : strcmp (s1, s2); } /** After this statement, the element has been found and its index is stored * in the variable "imid". */ #define BINARY_SEARCH_BEGIN(max, compare) \ gint imin = 0, imax = max, imid; \ while (imin <= imax) { \ imid = imin + (imax - imin) / 2; \ gint cmp = compare; \ if (cmp > 0) imin = imid + 1; \ else if (cmp < 0) imax = imid - 1; \ else { /** After this statement, the binary search has failed and "imin" stores * the position where the element can be inserted. */ #define BINARY_SEARCH_END \ } \ } // --- Errors ------------------------------------------------------------------ GQuark stardict_error_quark (void) { return g_quark_from_static_string ("stardict-error-quark"); } // --- IFO reader -------------------------------------------------------------- static gboolean ifo_reader_init (IfoReader *ir, const gchar *path, GError **error) { gsize length; gchar *contents; if (!g_file_get_contents (path, &contents, &length, error)) return FALSE; static const char first_line[] = "StarDict's dict ifo file\n"; if (length < sizeof first_line - 1 || strncmp (contents, first_line, sizeof first_line - 1)) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: invalid header format", path); return FALSE; } ir->data = contents; ir->start = contents + sizeof first_line - 1; ir->data_end = contents + length; return TRUE; } static void ifo_reader_free (IfoReader *ir) { g_free (ir->data); } static gint ifo_reader_read (IfoReader *ir) { ir->key = NULL; ir->value = NULL; gchar *p; for (p = ir->start; p < ir->data_end; p++) { if (*p == '\n') { if (!ir->key) return -1; *p = 0; ir->value = ir->start; ir->start = p + 1; return 1; } if (*p == '=') { if (p == ir->start) return -1; *p = 0; ir->key = ir->start; ir->start = p + 1; } } if (!ir->key) { if (p != ir->start) return -1; return 0; } ir->value = ir->start; ir->start = p; return 1; } // --- StardictInfo ------------------------------------------------------------ /** Return the filesystem path for the dictionary. */ const gchar * stardict_info_get_path (StardictInfo *sdi) { return sdi->path; } /** Return the name of the dictionary. */ const gchar * stardict_info_get_book_name (StardictInfo *sdi) { return sdi->book_name; } /** Return the word count of the dictionary. Note that this information comes * from the .ifo file, while the dictionary could successfully load with * a different count of word entries. */ gsize stardict_info_get_word_count (StardictInfo *sdi) { return sdi->word_count; } /** Destroy the dictionary info object. */ void stardict_info_free (StardictInfo *sdi) { g_free (sdi->path); g_free (sdi->book_name); g_free (sdi->author); g_free (sdi->email); g_free (sdi->website); g_free (sdi->description); g_free (sdi->date); g_free (sdi->same_type_sequence); g_free (sdi); } #define DEFINE_IFO_KEY(n, t, e) { (n), IFO_##t, offsetof (StardictInfo, e) } static gboolean load_ifo (StardictInfo *sti, const gchar *path, GError **error) { IfoReader ir; if (!ifo_reader_init (&ir, path, error)) return FALSE; gboolean ret_val = FALSE; memset (sti, 0, sizeof *sti); if (ifo_reader_read (&ir) != 1 || strcmp (ir.key, "version")) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: version not specified", path); goto error; } if (!strcmp (ir.value, "2.4.2")) sti->version = SD_VERSION_2_4_2; else if (!strcmp (ir.value, "3.0.0")) sti->version = SD_VERSION_3_0_0; else { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: invalid version: %s", path, ir.value); goto error; } static const struct { const gchar *name; enum { IFO_STRING, IFO_NUMBER } type; size_t offset; } ifo_keys[] = { DEFINE_IFO_KEY ("bookname", STRING, book_name), DEFINE_IFO_KEY ("wordcount", NUMBER, word_count), DEFINE_IFO_KEY ("synwordcount", NUMBER, syn_word_count), DEFINE_IFO_KEY ("idxfilesize", NUMBER, idx_filesize), DEFINE_IFO_KEY ("idxoffsetbits", NUMBER, idx_offset_bits), DEFINE_IFO_KEY ("author", STRING, author), DEFINE_IFO_KEY ("email", STRING, email), DEFINE_IFO_KEY ("website", STRING, website), DEFINE_IFO_KEY ("description", STRING, description), DEFINE_IFO_KEY ("date", STRING, date), DEFINE_IFO_KEY ("sametypesequence", STRING, same_type_sequence) }; gint ret; while ((ret = ifo_reader_read (&ir)) == 1) { guint i; for (i = 0; i < G_N_ELEMENTS (ifo_keys); i++) if (!strcmp (ir.key, ifo_keys[i].name)) break; if (i == G_N_ELEMENTS (ifo_keys)) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: unknown key, ignoring: %s", path, ir.key); continue; } if (ifo_keys[i].type == IFO_STRING) { G_STRUCT_MEMBER (gchar *, sti, ifo_keys[i].offset) = g_strdup (ir.value); continue; } // Otherwise it has to be IFO_NUMBER gchar *end; gulong wc = strtol (ir.value, &end, 10); if (*end) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: invalid integer", path); goto error; } G_STRUCT_MEMBER (gulong, sti, ifo_keys[i].offset) = wc; } if (ret == -1) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: option format error", path); goto error; } ret_val = TRUE; // FIXME check for zeros, don't assume that 0 means for "not set" if (!sti->book_name || !*sti->book_name) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: no book name specified\n", path); ret_val = FALSE; } if (!sti->word_count) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: word count not specified\n", path); ret_val = FALSE; } if (!sti->idx_filesize) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: .idx file size not specified\n", path); ret_val = FALSE; } if (!sti->idx_offset_bits) sti->idx_offset_bits = 32; else if (sti->idx_offset_bits != 32 && sti->idx_offset_bits != 64) { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "%s: wrong index offset bits: %lu\n", path, sti->idx_offset_bits); ret_val = FALSE; } error: if (!ret_val) { guint i; for (i = 0; i < G_N_ELEMENTS (ifo_keys); i++) if (ifo_keys[i].type == IFO_STRING) g_free (G_STRUCT_MEMBER (gchar *, sti, ifo_keys[i].offset)); } else sti->path = g_strdup (path); ifo_reader_free (&ir); return ret_val; } /** List all dictionary files located in a path. * @return GList. Deallocate the list with: * @code * g_list_free_full ((GDestroyNotify) stardict_info_free); * @endcode */ GList * stardict_list_dictionaries (const gchar *path) { GPatternSpec *ps = g_pattern_spec_new ("*.ifo"); GDir *dir = g_dir_open (path, 0, NULL); g_return_val_if_fail (dir != NULL, NULL); GList *dicts = NULL; const gchar *name; while ((name = g_dir_read_name (dir))) { if (!g_pattern_match_string (ps, name)) continue; gchar *filename = g_build_filename (path, name, NULL); StardictInfo *ifo = g_new (StardictInfo, 1); if (load_ifo (ifo, filename, NULL)) dicts = g_list_append (dicts, ifo); else g_free (ifo); g_free (filename); } g_dir_close (dir); g_pattern_spec_free (ps); return dicts; } // --- StardictDict ------------------------------------------------------------ G_DEFINE_TYPE (StardictDict, stardict_dict, G_TYPE_OBJECT) static void stardict_dict_finalize (GObject *self) { StardictDict *sd = STARDICT_DICT (self); stardict_info_free (sd->info); g_array_free (sd->index, TRUE); g_array_free (sd->synonyms, TRUE); g_free (sd->dict); G_OBJECT_CLASS (stardict_dict_parent_class)->finalize (self); } static void stardict_dict_class_init (StardictDictClass *klass) { G_OBJECT_CLASS (klass)->finalize = stardict_dict_finalize; } static void stardict_dict_init (G_GNUC_UNUSED StardictDict *sd) { } /** Load a StarDict dictionary. * @param[in] filename Path to the .ifo file */ StardictDict * stardict_dict_new (const gchar *filename, GError **error) { StardictInfo *ifo = g_new (StardictInfo, 1); if (!load_ifo (ifo, filename, error)) { g_free (ifo); return NULL; } StardictDict *sd = stardict_dict_new_from_info (ifo, error); if (!sd) stardict_info_free (ifo); return sd; } /** Return information about a loaded dictionary. */ StardictInfo * stardict_dict_get_info (StardictDict *sd) { g_return_val_if_fail (STARDICT_IS_DICT (sd), NULL); return sd->info; } /** Load a StarDict index from a GIO input stream. */ static gboolean load_idx_internal (StardictDict *sd, GInputStream *is, GError **error) { GDataInputStream *dis = g_data_input_stream_new (G_INPUT_STREAM (is)); g_data_input_stream_set_byte_order (dis, G_DATA_STREAM_BYTE_ORDER_BIG_ENDIAN); StardictIndexEntry entry; GError *err = NULL; // Ignoring "wordcount", just reading as long as we can while ((entry.name = stream_read_string (dis, &err))) { if (sd->info->idx_offset_bits == 32) entry.data_offset = g_data_input_stream_read_uint32 (dis, NULL, &err); else entry.data_offset = g_data_input_stream_read_uint64 (dis, NULL, &err); if (err) goto error; entry.data_size = g_data_input_stream_read_uint32 (dis, NULL, &err); if (err) goto error; g_array_append_val (sd->index, entry); } if (err != NULL) goto error; g_object_unref (dis); return TRUE; error: g_propagate_error (error, err); g_free (entry.name); g_object_unref (dis); return FALSE; } /** Load a StarDict index. */ static gboolean load_idx (StardictDict *sd, const gchar *filename, gboolean gzipped, GError **error) { gboolean ret_val = FALSE; GFile *file = g_file_new_for_path (filename); GFileInputStream *fis = g_file_read (file, NULL, error); if (!fis) goto cannot_open; if (gzipped) { GZlibDecompressor *zd = g_zlib_decompressor_new (G_ZLIB_COMPRESSOR_FORMAT_GZIP); GInputStream *cis = g_converter_input_stream_new (G_INPUT_STREAM (fis), G_CONVERTER (zd)); ret_val = load_idx_internal (sd, cis, error); g_object_unref (cis); g_object_unref (zd); } else ret_val = load_idx_internal (sd, G_INPUT_STREAM (fis), error); g_object_unref (fis); cannot_open: g_object_unref (file); return ret_val; } static gboolean load_syn (StardictDict *sd, const gchar *filename, GError **error) { gboolean ret_val = FALSE; GFile *file = g_file_new_for_path (filename); GFileInputStream *fis = g_file_read (file, NULL, error); if (!fis) goto cannot_open; GDataInputStream *dis = g_data_input_stream_new (G_INPUT_STREAM (fis)); g_data_input_stream_set_byte_order (dis, G_DATA_STREAM_BYTE_ORDER_BIG_ENDIAN); StardictSynonymEntry entry; GError *err = NULL; // Ignoring "synwordcount", just reading as long as we can while ((entry.word = stream_read_string (dis, &err))) { entry.original_word = g_data_input_stream_read_uint32 (dis, NULL, &err); if (err) break; g_array_append_val (sd->synonyms, entry); } if (err != NULL) { g_free (entry.word); g_propagate_error (error, err); } else ret_val = TRUE; g_object_unref (dis); g_object_unref (fis); cannot_open: g_object_unref (file); return ret_val; } /** Destroy an index entry. */ static void index_destroy_cb (gpointer sde) { StardictIndexEntry *e = sde; g_free (e->name); } /** Destroy a synonym entry. */ static void syn_destroy_cb (gpointer sde) { StardictSynonymEntry *e = sde; g_free (e->word); } /** Load StarDict dictionary data. */ static gboolean load_dict (StardictDict *sd, const gchar *filename, gboolean gzipped, GError **error) { gboolean ret_val = FALSE; GFile *file = g_file_new_for_path (filename); GFileInputStream *fis = g_file_read (file, NULL, error); if (!fis) goto cannot_open; // Just read it all, as it is, into memory GByteArray *ba = g_byte_array_new (); if (gzipped) { GZlibDecompressor *zd = g_zlib_decompressor_new (G_ZLIB_COMPRESSOR_FORMAT_GZIP); GInputStream *cis = g_converter_input_stream_new (G_INPUT_STREAM (fis), G_CONVERTER (zd)); ret_val = stream_read_all (ba, cis, error); g_object_unref (cis); g_object_unref (zd); } else ret_val = stream_read_all (ba, G_INPUT_STREAM (fis), error); if (!ret_val) { g_byte_array_free (ba, TRUE); goto reading_failed; } sd->dict_length = ba->len; sd->dict = g_byte_array_free (ba, FALSE); reading_failed: g_object_unref (fis); cannot_open: g_object_unref (file); return ret_val; } /** Load a StarDict dictionary. * @param[in] sdi Parsed .ifo data. */ StardictDict * stardict_dict_new_from_info (StardictInfo *sdi, GError **error) { g_return_val_if_fail (sdi != NULL, NULL); StardictDict *sd = g_object_new (STARDICT_TYPE_DICT, NULL); sd->info = sdi; sd->index = g_array_new (FALSE, FALSE, sizeof (StardictIndexEntry)); g_array_set_clear_func (sd->index, index_destroy_cb); sd->synonyms = g_array_new (FALSE, FALSE, sizeof (StardictSynonymEntry)); g_array_set_clear_func (sd->synonyms, syn_destroy_cb); const gchar *dot = strrchr (sdi->path, '.'); gchar *base = dot ? g_strndup (sdi->path, dot - sdi->path) : g_strdup (sdi->path); gchar *base_idx = g_strconcat (base, ".idx", NULL); gboolean ret = FALSE; if (g_file_test (base_idx, G_FILE_TEST_EXISTS | G_FILE_TEST_IS_REGULAR)) ret = load_idx (sd, base_idx, FALSE, error); else { gchar *base_idx_gz = g_strconcat (base_idx, ".gz", NULL); g_free (base_idx); base_idx = base_idx_gz; if (g_file_test (base_idx, G_FILE_TEST_EXISTS | G_FILE_TEST_IS_REGULAR)) ret = load_idx (sd, base_idx, TRUE, error); else { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_FILE_NOT_FOUND, "%s: cannot find index file", sdi->path); } } g_free (base_idx); if (!ret) goto error; gchar *base_dict = g_strconcat (base, ".dict", NULL); ret = FALSE; if (g_file_test (base_dict, G_FILE_TEST_EXISTS | G_FILE_TEST_IS_REGULAR)) ret = load_dict (sd, base_dict, FALSE, error); else { gchar *base_dict_dz = g_strconcat (base_dict, ".dz", NULL); g_free (base_dict); base_dict = base_dict_dz; if (g_file_test (base_dict, G_FILE_TEST_EXISTS | G_FILE_TEST_IS_REGULAR)) ret = load_dict (sd, base_dict, TRUE, error); else { g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_FILE_NOT_FOUND, "%s: cannot find dict file", sdi->path); } } g_free (base_dict); if (!ret) goto error; gchar *base_syn = g_strconcat (base, ".syn", NULL); if (g_file_test (base_syn, G_FILE_TEST_EXISTS | G_FILE_TEST_IS_REGULAR)) load_syn (sd, base_syn, NULL); g_free (base_syn); g_free (base); return sd; error: g_array_free (sd->index, TRUE); g_free (base); g_object_unref (sd); return NULL; } /** Return words for which the argument is a synonym of or NULL * if there are no such words. */ gchar ** stardict_dict_get_synonyms (StardictDict *sd, const gchar *word) { BINARY_SEARCH_BEGIN (sd->synonyms->len - 1, stardict_strcmp (word, g_array_index (sd->synonyms, StardictSynonymEntry, imid).word)) // Back off to the first matching entry while (imid > 0 && !stardict_strcmp (word, g_array_index (sd->synonyms, StardictSynonymEntry, --imid).word)); GPtrArray *array = g_ptr_array_new (); // And add all matching entries from that position on to the array do g_ptr_array_add (array, g_strdup (g_array_index (sd->index, StardictIndexEntry, g_array_index (sd->synonyms, StardictSynonymEntry, ++imid).original_word).name)); while ((guint) imid < sd->synonyms->len - 1 && !stardict_strcmp (word, g_array_index (sd->synonyms, StardictSynonymEntry, imid + 1).word)); return (gchar **) g_ptr_array_free (array, FALSE); BINARY_SEARCH_END return NULL; } /** Search for a word. * @param[in] word The word in utf-8 encoding * @param[out] success TRUE if found * @return An iterator object pointing to the word, or where it would be */ StardictIterator * stardict_dict_search (StardictDict *sd, const gchar *word, gboolean *success) { BINARY_SEARCH_BEGIN (sd->index->len - 1, stardict_strcmp (word, g_array_index (sd->index, StardictIndexEntry, imid).name)) if (success) *success = TRUE; return stardict_iterator_new (sd, imid); BINARY_SEARCH_END if (success) *success = FALSE; return stardict_iterator_new (sd, imin); } static void stardict_entry_field_free (StardictEntryField *sef) { g_free (sef->data); g_slice_free1 (sizeof *sef, sef); } static StardictEntryField * read_entry (gchar type, const gchar **entry_iterator, const gchar *end, gboolean is_final) { const gchar *entry = *entry_iterator; if (g_ascii_islower (type)) { GString *data = g_string_new (NULL); if (is_final) g_string_append_len (data, entry, end - entry); else { gchar c; while (entry < end && (c = *entry++)) g_string_append_c (data, c); if (c != '\0') return (gpointer) g_string_free (data, TRUE); } StardictEntryField *sef = g_slice_alloc (sizeof *sef); sef->type = type; sef->data_size = data->len + 1; sef->data = g_string_free (data, FALSE); *entry_iterator = entry; return sef; } gsize length; if (is_final) length = end - entry; else { if (entry + sizeof (guint32) > end) return NULL; length = GUINT32_FROM_BE (*(guint32 *) entry); entry += sizeof (guint32); if (entry + length > end) return NULL; } StardictEntryField *sef = g_slice_alloc (sizeof *sef); sef->type = type; sef->data_size = length; sef->data = memcpy (g_malloc (length), entry, length); *entry_iterator = entry; return sef; } static GList * read_entries (const gchar *entry, gsize entry_size, GError **error) { const gchar *end = entry + entry_size; GList *result = NULL; while (entry < end) { gchar type = *entry++; StardictEntryField *sef = read_entry (type, &entry, end, FALSE); if (!sef) goto error; result = g_list_append (result, sef); } return result; error: g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "invalid data entry"); g_list_free_full (result, (GDestroyNotify) stardict_entry_field_free); return NULL; } static GList * read_entries_sts (const gchar *entry, gsize entry_size, const gchar *sts, GError **error) { const gchar *end = entry + entry_size; GList *result = NULL; while (*sts) { gchar type = *sts++; StardictEntryField *sef = read_entry (type, &entry, end, !*sts); if (!sef) goto error; result = g_list_append (result, sef); } return result; error: g_set_error (error, STARDICT_ERROR, STARDICT_ERROR_INVALID_DATA, "invalid data entry"); g_list_free_full (result, (GDestroyNotify) stardict_entry_field_free); return NULL; } /** Return the data for the specified offset in the index. Unsafe. */ static StardictEntry * stardict_dict_get_entry (StardictDict *sd, guint32 offset) { // TODO cache the entries StardictIndexEntry *sie = &g_array_index (sd->index, StardictIndexEntry, offset); g_return_val_if_fail (sie->data_offset + sie->data_size <= sd->dict_length, NULL); GList *entries; if (sd->info->same_type_sequence) entries = read_entries_sts (sd->dict + sie->data_offset, sie->data_size, sd->info->same_type_sequence, NULL); else entries = read_entries (sd->dict + sie->data_offset, sie->data_size, NULL); if (!entries) return NULL; StardictEntry *se = g_object_new (STARDICT_TYPE_ENTRY, NULL); se->fields = entries; return se; } // --- StardictEntry ----------------------------------------------------------- G_DEFINE_TYPE (StardictEntry, stardict_entry, G_TYPE_OBJECT) static void stardict_entry_finalize (GObject *self) { StardictEntry *sde = STARDICT_ENTRY (self); g_list_free_full (sde->fields, (GDestroyNotify) stardict_entry_field_free); G_OBJECT_CLASS (stardict_entry_parent_class)->finalize (self); } static void stardict_entry_class_init (StardictEntryClass *klass) { G_OBJECT_CLASS (klass)->finalize = stardict_entry_finalize; } static void stardict_entry_init (G_GNUC_UNUSED StardictEntry *sde) { } /** Return the entries present within the entry. * @return GList */ const GList * stardict_entry_get_fields (StardictEntry *sde) { g_return_val_if_fail (STARDICT_IS_ENTRY (sde), NULL); return sde->fields; } // --- StardictIterator--------------------------------------------------------- G_DEFINE_TYPE (StardictIterator, stardict_iterator, G_TYPE_OBJECT) static void stardict_iterator_finalize (GObject *self) { StardictIterator *si = STARDICT_ITERATOR (self); g_object_unref (si->owner); G_OBJECT_CLASS (stardict_iterator_parent_class)->finalize (self); } static void stardict_iterator_class_init (StardictIteratorClass *klass) { G_OBJECT_CLASS (klass)->finalize = stardict_iterator_finalize; } static void stardict_iterator_init (G_GNUC_UNUSED StardictIterator *sd) { } /** Create a new iterator for the dictionary with offset @a offset. */ StardictIterator * stardict_iterator_new (StardictDict *sd, guint32 offset) { g_return_val_if_fail (STARDICT_IS_DICT (sd), NULL); StardictIterator *si = g_object_new (STARDICT_TYPE_ITERATOR, NULL); si->owner = g_object_ref (sd); si->offset = offset; return si; } /** Return the word in the index that the iterator points at, or NULL. */ const gchar * stardict_iterator_get_word (StardictIterator *sdi) { g_return_val_if_fail (STARDICT_IS_ITERATOR (sdi), NULL); if (!stardict_iterator_is_valid (sdi)) return NULL; return g_array_index (sdi->owner->index, StardictIndexEntry, sdi->offset).name; } /** Return the dictionary entry that the iterator points at, or NULL. */ StardictEntry * stardict_iterator_get_entry (StardictIterator *sdi) { g_return_val_if_fail (STARDICT_IS_ITERATOR (sdi), NULL); if (!stardict_iterator_is_valid (sdi)) return FALSE; return stardict_dict_get_entry (sdi->owner, sdi->offset); } /** Return whether the iterator points to a valid index entry. */ gboolean stardict_iterator_is_valid (StardictIterator *sdi) { g_return_val_if_fail (STARDICT_IS_ITERATOR (sdi), FALSE); return sdi->offset >= 0 && sdi->offset < sdi->owner->index->len; } /** Return the offset of the iterator within the dictionary index. */ gint64 stardict_iterator_get_offset (StardictIterator *sdi) { g_return_val_if_fail (STARDICT_IS_ITERATOR (sdi), -1); return sdi->offset; } /** Set the offset of the iterator. */ void stardict_iterator_set_offset (StardictIterator *sdi, gint64 offset, gboolean relative) { g_return_if_fail (STARDICT_IS_ITERATOR (sdi)); sdi->offset = relative ? sdi->offset + offset : offset; }