/** * \file Thesaurus.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author John Levon * \author Jürgen Spitzmüller * * Full author contact details are available in file CREDITS. */ #include #include "Thesaurus.h" #include "support/debug.h" #include "support/gettext.h" #include "LyXRC.h" #include "support/FileNameList.h" #include "support/filetools.h" #include "support/lstrings.h" #include "support/os.h" #include "support/unicode.h" #include "frontends/alert.h" #include #include using namespace std; using namespace lyx::support; using namespace lyx::support::os; namespace lyx { #ifndef HAVE_LIBMYTHES #ifdef HAVE_LIBAIKSAURUS Thesaurus::Thesaurus() : thes_(new Aiksaurus) {} Thesaurus::~Thesaurus() { delete thes_; } Thesaurus::Meanings Thesaurus::lookup(docstring const & t, docstring const &) { Meanings meanings; // aiksaurus is for english text only, therefore it does not work // with non-ascii strings. // The interface of the Thesaurus class uses docstring because a // non-english thesaurus is possible in theory. if (!support::isAscii(t)) // to_ascii() would assert return meanings; string const text = to_ascii(t); docstring error = from_ascii(thes_->error()); if (!error.empty()) { static bool sent_error = false; if (!sent_error) { frontend::Alert::error(_("Thesaurus failure"), bformat(_("Aiksaurus returned the following error:\n\n%1$s."), error)); sent_error = true; } return meanings; } if (!thes_->find(text.c_str())) return meanings; // weird api, but ... int prev_meaning = -1; int cur_meaning; docstring meaning; // correct, returns "" at the end string ret = thes_->next(cur_meaning); while (!ret.empty()) { if (cur_meaning != prev_meaning) { meaning = from_ascii(ret); ret = thes_->next(cur_meaning); prev_meaning = cur_meaning; } else { if (ret != text) meanings[meaning].push_back(from_ascii(ret)); } ret = thes_->next(cur_meaning); } for (Meanings::iterator it = meanings.begin(); it != meanings.end(); ++it) sort(it->second.begin(), it->second.end()); return meanings; } bool Thesaurus::thesaurusAvailable(docstring const & lang) const { // we support English only return prefixIs(lang, "en_"); } #endif // HAVE_LIBAIKSAURUS #endif // !HAVE_LIBMYTHES #ifdef HAVE_LIBMYTHES namespace { string const to_iconv_encoding(docstring const & s, string const & encoding) { std::vector const encoded = ucs4_to_eightbit(s.data(), s.length(), encoding); return string(encoded.begin(), encoded.end()); } docstring const from_iconv_encoding(string const & s, string const & encoding) { std::vector const ucs4 = eightbit_to_ucs4(s.data(), s.length(), encoding); return docstring(ucs4.begin(), ucs4.end()); } } // namespace anon Thesaurus::Thesaurus() {} Thesaurus::~Thesaurus() { for (Thesauri::iterator it = thes_.begin(); it != thes_.end(); ++it) { delete it->second; } } bool Thesaurus::addThesaurus(docstring const & lang) { string const thes_path = external_path(lyxrc.thesaurusdir_path); LYXERR(Debug::FILES, "thesaurus path: " << thes_path); if (thes_path.empty()) return false; if (thesaurusAvailable(lang)) return true; FileNameList const idx_files = FileName(thes_path).dirList("idx"); FileNameList const data_files = FileName(thes_path).dirList("dat"); string idx; string data; for (FileNameList::const_iterator it = idx_files.begin(); it != idx_files.end(); ++it) { LYXERR(Debug::FILES, "found thesaurus idx file: " << it->onlyFileName()); if (contains(it->onlyFileName(), to_ascii(lang))) { idx = it->absFilename(); LYXERR(Debug::FILES, "selected thesaurus idx file: " << idx); break; } } for (support::FileNameList::const_iterator it = data_files.begin(); it != data_files.end(); ++it) { LYXERR(Debug::FILES, "found thesaurus data file: " << it->onlyFileName()); if (contains(it->onlyFileName(), to_ascii(lang))) { data = it->absFilename(); LYXERR(Debug::FILES, "selected thesaurus data file: " << data); break; } } if (idx.empty() || data.empty()) return false; char const * af = idx.c_str(); char const * df = data.c_str(); thes_[lang] = new MyThes(af, df); return true; } bool Thesaurus::thesaurusAvailable(docstring const & lang) const { for (Thesauri::const_iterator it = thes_.begin(); it != thes_.end(); ++it) { if (it->first == lang) if (it->second) return true; } return false; } Thesaurus::Meanings Thesaurus::lookup(docstring const & t, docstring const & lang) { Meanings meanings; MyThes * mythes = 0; if (!addThesaurus(lang)) return meanings; for (Thesauri::const_iterator it = thes_.begin(); it != thes_.end(); ++it) { if (it->first == lang) { mythes = it->second; break; } } if (!mythes) return meanings; string const encoding = mythes->get_th_encoding(); mentry * pmean; string const text = to_iconv_encoding(support::lowercase(t), encoding); int len = strlen(text.c_str()); int count = mythes->Lookup(text.c_str(), len, &pmean); if (!count) return meanings; // don't change value of pmean or count // they are needed for the CleanUpAfterLookup routine mentry * pm = pmean; docstring meaning; docstring ret; for (int i = 0; i < count; i++) { meaning = from_iconv_encoding(string(pm->defn), encoding); // remove silly item if (support::prefixIs(meaning, '-')) meaning = support::ltrim(meaning, "- "); for (int j = 0; j < pm->count; j++) { ret = from_iconv_encoding(string(pm->psyns[j]), encoding); } meanings[meaning].push_back(ret); pm++; } // now clean up all allocated memory mythes->CleanUpAfterLookup(&pmean, count); for (Meanings::iterator it = meanings.begin(); it != meanings.end(); ++it) sort(it->second.begin(), it->second.end()); return meanings; } #else Thesaurus::Meanings Thesaurus::lookup(docstring const &, docstring const &) { return Meanings(); } #endif // HAVE_LIBMYTHES // Global instance Thesaurus thesaurus; } // namespace lyx