/** * \file AspellChecker.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Kevin Atkinson * \author John Levon * * Full author contact details are available in file CREDITS. */ #include #include "AspellChecker.h" #include "PersonalWordList.h" #include "LyXRC.h" #include "WordLangTuple.h" #include "support/lassert.h" #include "support/debug.h" #include "support/lstrings.h" #include "support/docstring_list.h" #include "support/filetools.h" #include "support/Package.h" #include "support/FileName.h" #include "support/Path.h" #include #include #include using namespace std; using namespace lyx::support; namespace lyx { namespace { struct Speller { AspellConfig * config; AspellCanHaveError * e_speller; bool accept_compound; docstring_list ignored_words_; }; typedef std::map Spellers; typedef map LangPersonalWordList; } // anon namespace struct AspellChecker::Private { Private() {} ~Private(); /// add a speller of the given language and variety AspellSpeller * addSpeller(Language const * lang); /// AspellSpeller * speller(Language const * lang); bool isValidDictionary(AspellConfig * config, string const & lang, string const & variety); int numDictionaries() const; bool checkAspellData(AspellConfig * config, string const & basepath, string const & datapath, string const & dictpath, string const & lang, string const & variety); AspellConfig * getConfig(string const & lang, string const & variety); string toAspellWord(docstring const & word) const; SpellChecker::Result check(AspellSpeller * m, WordLangTuple const & word) const; void initSessionDictionary(Speller const & speller, PersonalWordList * pd); void addToSession(AspellCanHaveError * speller, docstring const & word); void insert(WordLangTuple const & word); void remove(WordLangTuple const & word); bool learned(WordLangTuple const & word); void accept(Speller & speller, WordLangTuple const & word); /// the spellers Spellers spellers_; LangPersonalWordList personal_; /// the location below system/user directory /// there the rws files lookup will happen const string dictDirectory(void) { return "dicts"; } /// there the dat+cmap files lookup will happen const string dataDirectory(void) { return "data"; } /// os package directory constants /// macports on Mac OS X or /// aspell rpms on Linux const string osPackageBase(void) { #ifdef USE_MACOSX_PACKAGING return "/opt/local"; #else return "/usr"; #endif } const string osPackageDictDirectory(void) { #ifdef USE_MACOSX_PACKAGING return "/share/aspell"; #else return "/lib/aspell-0.60"; #endif } const string osPackageDataDirectory(void) { return "/lib/aspell-0.60"; } }; AspellChecker::Private::~Private() { Spellers::iterator it = spellers_.begin(); Spellers::iterator end = spellers_.end(); for (; it != end; ++it) { if (it->second.e_speller) { AspellSpeller * speller = to_aspell_speller(it->second.e_speller); aspell_speller_save_all_word_lists(speller); delete_aspell_can_have_error(it->second.e_speller); } delete_aspell_config(it->second.config); } LangPersonalWordList::const_iterator pdit = personal_.begin(); LangPersonalWordList::const_iterator pdet = personal_.end(); for (; pdit != pdet; ++pdit) { if ( 0 == pdit->second) continue; PersonalWordList * pd = pdit->second; pd->save(); delete pd; } } bool AspellChecker::Private::isValidDictionary(AspellConfig * config, string const & lang, string const & variety) { bool have = false; // code taken from aspell's list-dicts example // the returned pointer should _not_ need to be deleted AspellDictInfoList * dlist = get_aspell_dict_info_list(config); AspellDictInfoEnumeration * dels = aspell_dict_info_list_elements(dlist); const AspellDictInfo * entry; while (0 != (entry = aspell_dict_info_enumeration_next(dels))) { LYXERR(Debug::DEBUG, "aspell dict:" << " name=" << entry->name << ",code=" << entry->code << ",variety=" << entry->jargon); if (entry->code == lang && (variety.empty() || entry->jargon == variety)) { have = true; break; } } delete_aspell_dict_info_enumeration(dels); LYXERR(Debug::FILES, "aspell dictionary: " << lang << (have ? " yes" : " no")); return have; } bool AspellChecker::Private::checkAspellData(AspellConfig * config, string const & basepath, string const & datapath, string const & dictpath, string const & lang, string const & variety) { FileName base(basepath); bool have_dict = base.isDirectory() ; if (have_dict) { FileName data(addPath(base.absFileName(), datapath)); FileName dict(addPath(base.absFileName(), dictpath)); have_dict = dict.isDirectory() && data.isDirectory(); if (have_dict) { LYXERR(Debug::FILES, "aspell dict-dir: " << dict); LYXERR(Debug::FILES, "aspell data-dir: " << data); aspell_config_replace(config, "dict-dir", dict.absFileName().c_str()); aspell_config_replace(config, "data-dir", data.absFileName().c_str()); have_dict = isValidDictionary(config, lang, variety); } } return have_dict ; } AspellConfig * AspellChecker::Private::getConfig(string const & lang, string const & variety) { AspellConfig * config = new_aspell_config(); bool have_dict = false; string const sysdir = lyx::support::package().system_support().absFileName() ; string const userdir = lyx::support::package().user_support().absFileName() ; LYXERR(Debug::FILES, "aspell user dir: " << userdir); have_dict = checkAspellData(config, userdir, dataDirectory(), dictDirectory(), lang, variety); if (!have_dict) { LYXERR(Debug::FILES, "aspell sysdir dir: " << sysdir); have_dict = checkAspellData(config, sysdir, dataDirectory(), dictDirectory(), lang, variety); } if (!have_dict) { // check for package data of OS installation have_dict = checkAspellData(config, osPackageBase(), osPackageDataDirectory(), osPackageDictDirectory(), lang, variety); } return config ; } void AspellChecker::Private::addToSession(AspellCanHaveError * speller, docstring const & word) { string const word_to_add = toAspellWord(word); if(1 != aspell_speller_add_to_session(to_aspell_speller(speller), word_to_add.c_str(), -1)) LYXERR(Debug::GUI, "aspell add to session: " << aspell_error_message(speller)); } void AspellChecker::Private::initSessionDictionary( Speller const & speller, PersonalWordList * pd) { AspellSpeller * aspell = to_aspell_speller(speller.e_speller); aspell_speller_clear_session(aspell); docstring_list::const_iterator it = pd->begin(); docstring_list::const_iterator et = pd->end(); for (; it != et; ++it) { addToSession(speller.e_speller, *it); } it = speller.ignored_words_.begin(); et = speller.ignored_words_.end(); for (; it != et; ++it) { addToSession(speller.e_speller, *it); } } AspellSpeller * AspellChecker::Private::addSpeller(Language const * lang) { Speller m; string const code = lang->code(); string const variety = lang->variety(); m.config = getConfig(code, variety); // Aspell supports both languages and varieties (such as German // old vs. new spelling). The respective naming convention is // lang_REGION-variety (e.g. de_DE-alt). aspell_config_replace(m.config, "lang", code.c_str()); if (!variety.empty()) aspell_config_replace(m.config, "variety", variety.c_str()); // Set the encoding to utf-8. // aspell does also understand "ucs-4", so we would not need a // conversion in theory, but if this is used it expects all // char const * arguments to be a cast from uint const *, and it // seems that this uint is not compatible with our char_type on some // platforms (cygwin, OS X). Therefore we use utf-8, that does // always work. aspell_config_replace(m.config, "encoding", "utf-8"); if (lyxrc.spellchecker_accept_compound) // Consider run-together words as legal compounds aspell_config_replace(m.config, "run-together", "true"); else // Report run-together words as errors aspell_config_replace(m.config, "run-together", "false"); m.accept_compound = lyxrc.spellchecker_accept_compound; m.e_speller = new_aspell_speller(m.config); if (aspell_error_number(m.e_speller) != 0) { // FIXME: We should indicate somehow that this language is not supported. LYXERR(Debug::FILES, "aspell error: " << aspell_error_message(m.e_speller)); delete_aspell_can_have_error(m.e_speller); delete_aspell_config(m.config); m.config = 0; m.e_speller = 0; } else { PersonalWordList * pd = new PersonalWordList(lang->lang()); pd->load(); personal_[lang->lang()] = pd; initSessionDictionary(m, pd); } spellers_[lang->lang()] = m; return m.e_speller ? to_aspell_speller(m.e_speller) : 0; } AspellSpeller * AspellChecker::Private::speller(Language const * lang) { Spellers::iterator it = spellers_.find(lang->lang()); if (it != spellers_.end()) { Speller aspell = it->second; if (lyxrc.spellchecker_accept_compound != aspell.accept_compound) { // spell checker setting changed... adjust run-together aspell.accept_compound = lyxrc.spellchecker_accept_compound; if (aspell.accept_compound) // Consider run-together words as legal compounds aspell_config_replace(aspell.config, "run-together", "true"); else // Report run-together words as errors aspell_config_replace(aspell.config, "run-together", "false"); AspellCanHaveError * e_speller = aspell.e_speller; aspell.e_speller = new_aspell_speller(aspell.config); delete_aspell_speller(to_aspell_speller(e_speller)); spellers_[lang->lang()] = aspell; } return to_aspell_speller(aspell.e_speller); } return addSpeller(lang); } int AspellChecker::Private::numDictionaries() const { int result = 0; Spellers::const_iterator it = spellers_.begin(); Spellers::const_iterator et = spellers_.end(); for (; it != et; ++it) { Speller aspell = it->second; result += aspell.e_speller != 0; } return result; } string AspellChecker::Private::toAspellWord(docstring const & word) const { size_t mpos; string word_str = to_utf8(word); while ((mpos = word_str.find('-')) != word_str.npos) { word_str.erase(mpos, 1); } return word_str; } SpellChecker::Result AspellChecker::Private::check( AspellSpeller * m, WordLangTuple const & word) const { SpellChecker::Result result = WORD_OK; docstring w1; docstring rest = split(word.word(), w1, '-'); for (; result == WORD_OK;) { string const word_str = toAspellWord(w1); int const word_ok = aspell_speller_check(m, word_str.c_str(), -1); LASSERT(word_ok != -1, /**/); result = (word_ok) ? WORD_OK : UNKNOWN_WORD; if (rest.empty()) break; rest = split(rest,w1,'-'); } if (result == WORD_OK) return result; string const word_str = toAspellWord(word.word()); int const word_ok = aspell_speller_check(m, word_str.c_str(), -1); LASSERT(word_ok != -1, /**/); return (word_ok) ? WORD_OK : UNKNOWN_WORD; } void AspellChecker::Private::accept(Speller & speller, WordLangTuple const & word) { speller.ignored_words_.push_back(word.word()); } /// personal word list interface void AspellChecker::Private::remove(WordLangTuple const & word) { PersonalWordList * pd = personal_[word.lang()->lang()]; if (!pd) return; pd->remove(word.word()); Spellers::iterator it = spellers_.find(word.lang()->lang()); if (it != spellers_.end()) { initSessionDictionary(it->second, pd); } } void AspellChecker::Private::insert(WordLangTuple const & word) { Spellers::iterator it = spellers_.find(word.lang()->lang()); if (it != spellers_.end()) { addToSession(it->second.e_speller, word.word()); PersonalWordList * pd = personal_[word.lang()->lang()]; if (!pd) return; pd->insert(word.word()); } } bool AspellChecker::Private::learned(WordLangTuple const & word) { PersonalWordList * pd = personal_[word.lang()->lang()]; if (!pd) return false; return pd->exists(word.word()); } AspellChecker::AspellChecker(): d(new Private) { } AspellChecker::~AspellChecker() { delete d; } SpellChecker::Result AspellChecker::check(WordLangTuple const & word) { AspellSpeller * m = d->speller(word.lang()); if (!m) return NO_DICTIONARY; if (word.word().empty()) // MSVC compiled Aspell doesn't like it. return WORD_OK; SpellChecker::Result rc = d->check(m, word); return (rc == WORD_OK && d->learned(word)) ? LEARNED_WORD : rc; } void AspellChecker::advanceChangeNumber() { nextChangeNumber(); } void AspellChecker::insert(WordLangTuple const & word) { d->insert(word); advanceChangeNumber(); } void AspellChecker::accept(WordLangTuple const & word) { Spellers::iterator it = d->spellers_.find(word.lang()->lang()); if (it != d->spellers_.end()) { d->addToSession(it->second.e_speller, word.word()); d->accept(it->second, word); advanceChangeNumber(); } } void AspellChecker::suggest(WordLangTuple const & wl, docstring_list & suggestions) { suggestions.clear(); AspellSpeller * m = d->speller(wl.lang()); if (!m) return; string const word = d->toAspellWord(wl.word()); AspellWordList const * sugs = aspell_speller_suggest(m, word.c_str(), -1); LASSERT(sugs != 0, /**/); AspellStringEnumeration * els = aspell_word_list_elements(sugs); if (!els || aspell_word_list_empty(sugs)) return; for (;;) { char const * str = aspell_string_enumeration_next(els); if (!str) break; suggestions.push_back(from_utf8(str)); } delete_aspell_string_enumeration(els); } void AspellChecker::remove(WordLangTuple const & word) { d->remove(word); advanceChangeNumber(); } bool AspellChecker::hasDictionary(Language const * lang) const { bool have = false; Spellers::iterator it = d->spellers_.begin(); Spellers::iterator end = d->spellers_.end(); if (lang) { for (; it != end && !have; ++it) { have = it->second.config && d->isValidDictionary(it->second.config, lang->code(), lang->variety()); } if (!have) { AspellConfig * config = d->getConfig(lang->code(), lang->variety()); have = d->isValidDictionary(config, lang->code(), lang->variety()); delete_aspell_config(config); } } return have; } int AspellChecker::numDictionaries() const { return d->numDictionaries(); } docstring const AspellChecker::error() { Spellers::iterator it = d->spellers_.begin(); Spellers::iterator end = d->spellers_.end(); char const * err = 0; for (; it != end && 0 == err; ++it) { if (it->second.e_speller && aspell_error_number(it->second.e_speller) != 0) err = aspell_error_message(it->second.e_speller); } // FIXME UNICODE: err is not in UTF8, but probably the locale encoding return (err ? from_utf8(err) : docstring()); } } // namespace lyx