/** * @file llspellcheck.cpp * @brief Spell checking functionality * * $LicenseInfo:firstyear=2001&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * 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; * version 2.1 of the License only. * * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include "lldir.h" #include "llsdserialize.h" #include "llspellcheck.h" #if LL_WINDOWS #include #pragma comment(lib, "libhunspell.lib") #else #include #endif static const std::string DICT_DIR = "dictionaries"; static const std::string DICT_CUSTOM_SUFFIX = "_custom"; static const std::string DICT_IGNORE_SUFFIX = "_ignore"; LLSD LLSpellChecker::sDictMap; LLSpellChecker::settings_change_signal_t LLSpellChecker::sSettingsChangeSignal; LLSpellChecker::LLSpellChecker() : mHunspell(NULL) { // Load initial dictionary information refreshDictionaryMap(); } LLSpellChecker::~LLSpellChecker() { delete mHunspell; } bool LLSpellChecker::checkSpelling(const std::string& word) const { if ( (!mHunspell) || (word.length() < 3) || (0 != mHunspell->spell(word.c_str())) ) { return true; } if (mIgnoreList.size() > 0) { std::string word_lower(word); LLStringUtil::toLower(word_lower); return (mIgnoreList.end() != std::find(mIgnoreList.begin(), mIgnoreList.end(), word_lower)); } return false; } S32 LLSpellChecker::getSuggestions(const std::string& word, std::vector& suggestions) const { suggestions.clear(); if ( (!mHunspell) || (word.length() < 3) ) return 0; char** suggestion_list; int suggestion_cnt = 0; if ( (suggestion_cnt = mHunspell->suggest(&suggestion_list, word.c_str())) != 0 ) { for (int suggestion_index = 0; suggestion_index < suggestion_cnt; suggestion_index++) suggestions.push_back(suggestion_list[suggestion_index]); mHunspell->free_list(&suggestion_list, suggestion_cnt); } return suggestions.size(); } // static const LLSD LLSpellChecker::getDictionaryData(const std::string& dict_name) { for (LLSD::array_const_iterator it = sDictMap.beginArray(); it != sDictMap.endArray(); ++it) { const LLSD& dict_entry = *it; if (dict_name == dict_entry["language"].asString()) return dict_entry; } return LLSD(); } // static void LLSpellChecker::refreshDictionaryMap() { const std::string app_path = getDictionaryAppPath(); const std::string user_path = getDictionaryUserPath(); // Load dictionary information (file name, friendly name, ...) llifstream user_map(user_path + "dictionaries.xml", std::ios::binary); if ( (!user_map.is_open()) || (0 == LLSDSerialize::fromXMLDocument(sDictMap, user_map)) || (0 == sDictMap.size()) ) { llifstream app_map(app_path + "dictionaries.xml", std::ios::binary); if ( (!app_map.is_open()) || (0 == LLSDSerialize::fromXMLDocument(sDictMap, app_map)) || (0 == sDictMap.size()) ) return; } // Look for installed dictionaries std::string tmp_app_path, tmp_user_path; for (LLSD::array_iterator it = sDictMap.beginArray(); it != sDictMap.endArray(); ++it) { LLSD& sdDict = *it; tmp_app_path = (sdDict.has("name")) ? app_path + sdDict["name"].asString() : LLStringUtil::null; tmp_user_path = (sdDict.has("name")) ? user_path + sdDict["name"].asString() : LLStringUtil::null; sdDict["installed"] = (!tmp_app_path.empty()) && ((gDirUtilp->fileExists(tmp_user_path + ".dic")) || (gDirUtilp->fileExists(tmp_app_path + ".dic"))); sdDict["has_custom"] = (!tmp_user_path.empty()) && (gDirUtilp->fileExists(tmp_user_path + DICT_CUSTOM_SUFFIX + ".dic")); sdDict["has_ignore"] = (!tmp_user_path.empty()) && (gDirUtilp->fileExists(tmp_user_path + DICT_IGNORE_SUFFIX + ".dic")); } } void LLSpellChecker::addToCustomDictionary(const std::string& word) { if (mHunspell) { mHunspell->add(word.c_str()); } addToDictFile(getDictionaryUserPath() + mDictFile + DICT_CUSTOM_SUFFIX + ".dic", word); sSettingsChangeSignal(); } void LLSpellChecker::addToIgnoreList(const std::string& word) { std::string word_lower(word); LLStringUtil::toLower(word_lower); if (mIgnoreList.end() != std::find(mIgnoreList.begin(), mIgnoreList.end(), word_lower)) { mIgnoreList.push_back(word_lower); addToDictFile(getDictionaryUserPath() + mDictFile + DICT_IGNORE_SUFFIX + ".dic", word_lower); sSettingsChangeSignal(); } } void LLSpellChecker::addToDictFile(const std::string& dict_path, const std::string& word) { std::vector word_list; if (gDirUtilp->fileExists(dict_path)) { llifstream file_in(dict_path, std::ios::in); if (file_in.is_open()) { std::string word; int line_num = 0; while (getline(file_in, word)) { // Skip over the first line since that's just a line count if (0 != line_num) word_list.push_back(word); line_num++; } } else { // TODO: show error message? return; } } word_list.push_back(word); llofstream file_out(dict_path, std::ios::out | std::ios::trunc); if (file_out.is_open()) { file_out << word_list.size() << std::endl; for (std::vector::const_iterator itWord = word_list.begin(); itWord != word_list.end(); ++itWord) file_out << *itWord << std::endl; file_out.close(); } } void LLSpellChecker::setSecondaryDictionaries(dict_list_t dict_list) { if (!getUseSpellCheck()) { return; } // Check if we're only adding secondary dictionaries, or removing them dict_list_t dict_add(llmax(dict_list.size(), mDictSecondary.size())), dict_rem(llmax(dict_list.size(), mDictSecondary.size())); dict_list.sort(); mDictSecondary.sort(); dict_list_t::iterator end_added = std::set_difference(dict_list.begin(), dict_list.end(), mDictSecondary.begin(), mDictSecondary.end(), dict_add.begin()); dict_list_t::iterator end_removed = std::set_difference(mDictSecondary.begin(), mDictSecondary.end(), dict_list.begin(), dict_list.end(), dict_rem.begin()); if (end_removed != dict_rem.begin()) // We can't remove secondary dictionaries so we need to recreate the Hunspell instance { mDictSecondary = dict_list; std::string dict_name = mDictName; initHunspell(dict_name); } else if (end_added != dict_add.begin()) // Add the new secondary dictionaries one by one { const std::string app_path = getDictionaryAppPath(); const std::string user_path = getDictionaryUserPath(); for (dict_list_t::const_iterator it_added = dict_add.begin(); it_added != end_added; ++it_added) { const LLSD dict_entry = getDictionaryData(*it_added); if ( (!dict_entry.isDefined()) || (!dict_entry["installed"].asBoolean()) ) continue; const std::string strFileDic = dict_entry["name"].asString() + ".dic"; if (gDirUtilp->fileExists(user_path + strFileDic)) mHunspell->add_dic((user_path + strFileDic).c_str()); else if (gDirUtilp->fileExists(app_path + strFileDic)) mHunspell->add_dic((app_path + strFileDic).c_str()); } mDictSecondary = dict_list; sSettingsChangeSignal(); } } void LLSpellChecker::initHunspell(const std::string& dict_name) { if (mHunspell) { delete mHunspell; mHunspell = NULL; mDictName.clear(); mDictFile.clear(); mIgnoreList.clear(); } const LLSD dict_entry = (!dict_name.empty()) ? getDictionaryData(dict_name) : LLSD(); if ( (!dict_entry.isDefined()) || (!dict_entry["installed"].asBoolean()) || (!dict_entry["is_primary"].asBoolean())) { sSettingsChangeSignal(); return; } const std::string app_path = getDictionaryAppPath(); const std::string user_path = getDictionaryUserPath(); if (dict_entry.has("name")) { const std::string filename_aff = dict_entry["name"].asString() + ".aff"; const std::string filename_dic = dict_entry["name"].asString() + ".dic"; if ( (gDirUtilp->fileExists(user_path + filename_aff)) && (gDirUtilp->fileExists(user_path + filename_dic)) ) mHunspell = new Hunspell((user_path + filename_aff).c_str(), (user_path + filename_dic).c_str()); else if ( (gDirUtilp->fileExists(app_path + filename_aff)) && (gDirUtilp->fileExists(app_path + filename_dic)) ) mHunspell = new Hunspell((app_path + filename_aff).c_str(), (app_path + filename_dic).c_str()); if (!mHunspell) return; mDictName = dict_name; mDictFile = dict_entry["name"].asString(); if (dict_entry["has_custom"].asBoolean()) { const std::string filename_dic = user_path + mDictFile + DICT_CUSTOM_SUFFIX + ".dic"; mHunspell->add_dic(filename_dic.c_str()); } if (dict_entry["has_ignore"].asBoolean()) { llifstream file_in(user_path + mDictFile + DICT_IGNORE_SUFFIX + ".dic", std::ios::in); if (file_in.is_open()) { std::string word; int idxLine = 0; while (getline(file_in, word)) { // Skip over the first line since that's just a line count if (0 != idxLine) { LLStringUtil::toLower(word); mIgnoreList.push_back(word); } idxLine++; } } } for (dict_list_t::const_iterator it = mDictSecondary.begin(); it != mDictSecondary.end(); ++it) { const LLSD dict_entry = getDictionaryData(*it); if ( (!dict_entry.isDefined()) || (!dict_entry["installed"].asBoolean()) ) continue; const std::string filename_dic = dict_entry["name"].asString() + ".dic"; if (gDirUtilp->fileExists(user_path + filename_dic)) mHunspell->add_dic((user_path + filename_dic).c_str()); else if (gDirUtilp->fileExists(app_path + filename_dic)) mHunspell->add_dic((app_path + filename_dic).c_str()); } } sSettingsChangeSignal(); } // static const std::string LLSpellChecker::getDictionaryAppPath() { std::string dict_path = gDirUtilp->getExpandedFilename(LL_PATH_APP_SETTINGS, DICT_DIR, ""); return dict_path; } // static const std::string LLSpellChecker::getDictionaryUserPath() { std::string dict_path = gDirUtilp->getExpandedFilename(LL_PATH_USER_SETTINGS, DICT_DIR, ""); if (!gDirUtilp->fileExists(dict_path)) { LLFile::mkdir(dict_path); } return dict_path; } // static bool LLSpellChecker::getUseSpellCheck() { return (LLSpellChecker::instanceExists()) && (LLSpellChecker::instance().mHunspell); } // static boost::signals2::connection LLSpellChecker::setSettingsChangeCallback(const settings_change_signal_t::slot_type& cb) { return sSettingsChangeSignal.connect(cb); } // static void LLSpellChecker::setUseSpellCheck(const std::string& dict_name) { if ( (((dict_name.empty()) && (getUseSpellCheck())) || (!dict_name.empty())) && (LLSpellChecker::instance().mDictName != dict_name) ) { LLSpellChecker::instance().initHunspell(dict_name); } } // static void LLSpellChecker::initClass() { if (sDictMap.isUndefined()) refreshDictionaryMap(); }