/** * \file Trans.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjřnnes * \author Matthias Ettrich * * Full author contact details are available in file CREDITS. */ #include #include "Trans.h" #include "Buffer.h" #include "BufferView.h" #include "Cursor.h" #include "CutAndPaste.h" #include "Lexer.h" #include "LyXRC.h" #include "Text.h" #include "support/convert.h" #include "support/debug.h" #include "support/docstream.h" #include "support/FileName.h" #include "support/filetools.h" #include "support/lstrings.h" using namespace std; using namespace lyx::support; namespace lyx { ///////////////////////////////////////////////////////////////////// // // TeXAccents // ///////////////////////////////////////////////////////////////////// /* the names used by TeX and XWindows for deadkeys/accents are not the same so here follows a table to clearify the differences. Please correct this if I got it wrong |------------------|------------------|------------------|--------------| | TeX | XWindows | \bind/LFUN | used by intl | |------------------|------------------|------------------|--------------| | grave | grave |LFUN_ACCENT_GRAVE | grave | acute | acute |LFUN_ACCENT_ACUTE | acute | circumflex | circumflex |LFUN_ACCENT_CIRCUMFLEX | circumflex | umlaut/dieresis | diaeresis |LFUN_ACCENT_UMLAUT | umlaut | tilde | tilde |LFUN_ACCENT_TILDE | tilde | macron | maron |LFUN_ACCENT_MACRON | macron | dot | abovedot |LFUN_ACCENT_DOT | dot | cedilla | cedilla |LFUN_ACCENT_CEDILLA | cedilla | underdot | |LFUN_ACCENT_UNDERDOT | underdot | underbar | |LFUN_ACCENT_UNDERBAR | underbar | hácek | caron |LFUN_ACCENT_CARON | caron | breve | breve |LFUN_ACCENT_BREVE | breve | tie | |LFUN_ACCENT_TIE | tie | Hungarian umlaut | doubleacute |LFUN_ACCENT_HUNGARIAN_UMLAUT | hungarian umlaut | circle | abovering |LFUN_ACCENT_CIRCLE | circle | | ogonek | | | | iota | | | | voiced_sound | | | | semivoiced_sound | | */ static TeXAccent lyx_accent_table[] = { {TEX_NOACCENT, 0, "", LFUN_NOACTION}, {TEX_ACUTE, 0x0301, "acute", LFUN_ACCENT_ACUTE}, {TEX_GRAVE, 0x0300, "grave", LFUN_ACCENT_GRAVE}, {TEX_MACRON, 0x0304, "macron", LFUN_ACCENT_MACRON}, {TEX_TILDE, 0x0303, "tilde", LFUN_ACCENT_TILDE}, {TEX_UNDERBAR, 0x0320, "underbar", LFUN_ACCENT_UNDERBAR}, {TEX_CEDILLA, 0x0327, "cedilla", LFUN_ACCENT_CEDILLA}, {TEX_UNDERDOT, 0x0323, "underdot", LFUN_ACCENT_UNDERDOT}, {TEX_CIRCUMFLEX, 0x0302, "circumflex", LFUN_ACCENT_CIRCUMFLEX}, {TEX_CIRCLE, 0x030a, "circle", LFUN_ACCENT_CIRCLE}, {TEX_TIE, 0x0361, "tie", LFUN_ACCENT_TIE}, {TEX_BREVE, 0x0306, "breve", LFUN_ACCENT_BREVE}, {TEX_CARON, 0x030c, "caron", LFUN_ACCENT_CARON}, // Don't fix this typo for compatibility reasons! {TEX_HUNGUML, 0x030b, "hugarian_umlaut", LFUN_ACCENT_HUNGARIAN_UMLAUT}, {TEX_UMLAUT, 0x0308, "umlaut", LFUN_ACCENT_UMLAUT}, {TEX_DOT, 0x0307, "dot", LFUN_ACCENT_DOT}, {TEX_OGONEK, 0x0328, "ogonek", LFUN_ACCENT_OGONEK} }; TeXAccent get_accent(FuncCode action) { int i = 0; while (i <= TEX_MAX_ACCENT) { if (lyx_accent_table[i].action == action) return lyx_accent_table[i]; ++i; } struct TeXAccent temp = { static_cast(0), 0, 0, static_cast(0)}; return temp; } static docstring const doAccent(docstring const & s, tex_accent accent) { if (s.empty()) return docstring(1, lyx_accent_table[accent].ucs4); odocstringstream os; os.put(s[0]); os.put(lyx_accent_table[accent].ucs4); if (s.length() > 1) { if (accent != TEX_TIE || s.length() > 2) lyxerr << "Warning: Too many characters given for accent " << lyx_accent_table[accent].name << '.' << endl; os << s.substr(1); } return normalize_c(os.str()); } static docstring const doAccent(char_type c, tex_accent accent) { return doAccent(docstring(1, c), accent); } ///////////////////////////////////////////////////////////////////// // // Trans // ///////////////////////////////////////////////////////////////////// void Trans::insertException(KmodException & exclist, char_type c, docstring const & data, bool flag, tex_accent accent) { Keyexc p; p.c = c; p.data = data; p.combined = flag; p.accent = accent; exclist.insert(exclist.begin(), p); // or just // exclist.push_back(p); } void Trans::freeException(KmodException & exclist) { exclist.clear(); } void Trans::freeKeymap() { kmod_list_.clear(); keymap_.clear(); } bool Trans::isDefined() const { return !name_.empty(); } enum { KCOMB = 1, KMOD, KMAP, KXMOD, }; tex_accent getkeymod(string const &); void Trans::addDeadkey(tex_accent accent, docstring const & keys) { KmodInfo tmp; tmp.data = keys; tmp.accent = accent; kmod_list_[accent] = tmp; for (docstring::size_type i = 0; i < keys.length(); ++i) { // FIXME This is a hack. // tmp is no valid UCS4 string, but misused to store the // accent. docstring tmp; tmp += char_type(0); tmp += char_type(accent); keymap_[keys[i]] = tmp; } } int Trans::load(Lexer & lex) { bool error = false; while (lex.isOK() && !error) { switch (lex.lex()) { case KMOD: { LYXERR(Debug::KBMAP, "KMOD:\t" << lex.getString()); if (!lex.next(true)) return -1; LYXERR(Debug::KBMAP, "key\t`" << lex.getString() << '\''); docstring const keys = lex.getDocString(); if (!lex.next(true)) return -1; LYXERR(Debug::KBMAP, "accent\t`" << lex.getString() << '\''); tex_accent accent = getkeymod(lex.getString()); if (accent == TEX_NOACCENT) return -1; #if 1 // FIXME: This code should be removed... // But we need to fix up all the kmap files first // so that this field is not present anymore. if (!lex.next(true)) return -1; LYXERR(Debug::KBMAP, "allowed\t`" << lex.getString() << '\''); /* string const allowed = lex.getString(); */ addDeadkey(accent, keys /*, allowed*/); #else addDeadkey(accent, keys); #endif break; } case KCOMB: { string str; LYXERR(Debug::KBMAP, "KCOMB:"); if (!lex.next(true)) return -1; str = lex.getString(); LYXERR(Debug::KBMAP, str); tex_accent accent_1 = getkeymod(str); if (accent_1 == TEX_NOACCENT) return -1; if (!lex.next(true)) return -1; str = lex.getString(); LYXERR(Debug::KBMAP, str); tex_accent accent_2 = getkeymod(str); if (accent_2 == TEX_NOACCENT) return -1; map::iterator it1 = kmod_list_.find(accent_1); map::iterator it2 = kmod_list_.find(accent_2); if (it1 == kmod_list_.end() || it2 == kmod_list_.end()) return -1; // Find what key accent_2 is on - should // check about accent_1 also map::iterator it = keymap_.begin(); map::iterator end = keymap_.end(); for (; it != end; ++it) { if (!it->second.empty() && it->second[0] == 0 && it->second[1] == accent_2) break; } docstring allowed; if (!lex.next()) return -1; allowed = lex.getDocString(); LYXERR(Debug::KBMAP, "allowed: " << to_utf8(allowed)); insertException(kmod_list_[accent_1].exception_list, it->first, allowed, true, accent_2); } break; case KMAP: { unsigned char key_from; LYXERR(Debug::KBMAP, "KMAP:\t" << lex.getString()); if (!lex.next(true)) return -1; key_from = lex.getString()[0]; LYXERR(Debug::KBMAP, "\t`" << lex.getString() << '\''); if (!lex.next(true)) return -1; docstring const string_to = lex.getDocString(); keymap_[key_from] = string_to; LYXERR(Debug::KBMAP, "\t`" << to_utf8(string_to) << '\''); break; } case KXMOD: { tex_accent accent; char_type key; docstring str; LYXERR(Debug::KBMAP, "KXMOD:\t" << lex.getString()); if (!lex.next(true)) return -1; LYXERR(Debug::KBMAP, "\t`" << lex.getString() << '\''); accent = getkeymod(lex.getString()); if (!lex.next(true)) return -1; LYXERR(Debug::KBMAP, "\t`" << lex.getString() << '\''); key = lex.getDocString()[0]; if (!lex.next(true)) return -1; LYXERR(Debug::KBMAP, "\t`" << lex.getString() << '\''); str = lex.getDocString(); insertException(kmod_list_[accent].exception_list, key, str); break; } case Lexer::LEX_FEOF: LYXERR(Debug::PARSER, "End of parsing"); break; default: lex.printError("ParseKeymapFile: Unknown tag: `$$Token'"); return -1; } } return 0; } bool Trans::isAccentDefined(tex_accent accent, KmodInfo & i) const { map::const_iterator cit = kmod_list_.find(accent); if (cit == kmod_list_.end()) return false; i = cit->second; return true; } docstring const Trans::process(char_type c, TransManager & k) { docstring const t = match(c); if (t.empty() && c != 0) return k.normalkey(c); if (!t.empty() && t[0] != 0) return t; //return k.normalkey(c); return k.deadkey(c, kmod_list_[static_cast(t[1])]); } int Trans::load(string const & language) { LexerKeyword kmapTags[] = { {"\\kcomb", KCOMB }, { "\\kmap", KMAP }, { "\\kmod", KMOD }, { "\\kxmod", KXMOD } }; FileName const filename = libFileSearch("kbd", language, "kmap"); if (filename.empty()) return -1; freeKeymap(); Lexer lex(kmapTags); lex.setFile(filename); int const res = load(lex); if (res == 0) name_ = language; else name_.erase(); return res; } tex_accent getkeymod(string const & p) /* return modifier - decoded from p and update p */ { for (int i = 1; i <= TEX_MAX_ACCENT; ++i) { LYXERR(Debug::KBMAP, "p = " << p << ", lyx_accent_table[" << i << "].name = `" << lyx_accent_table[i].name << '\''); if (lyx_accent_table[i].name && contains(p, lyx_accent_table[i].name)) { LYXERR(Debug::KBMAP, "Found it!"); return static_cast(i); } } return TEX_NOACCENT; } ///////////////////////////////////////////////////////////////////// // // TransState // ///////////////////////////////////////////////////////////////////// // TransFSMData TransFSMData::TransFSMData() { deadkey_ = deadkey2_ = 0; deadkey_info_.accent = deadkey2_info_.accent = TEX_NOACCENT; } // TransState char_type const TransState::TOKEN_SEP = 4; // TransInitState TransInitState::TransInitState() { init_state_ = this; } docstring const TransInitState::normalkey(char_type c) { docstring res; res = c; return res; } docstring const TransInitState::deadkey(char_type c, KmodInfo d) { deadkey_ = c; deadkey_info_ = d; currentState = deadkey_state_; return docstring(); } // TransDeadkeyState TransDeadkeyState::TransDeadkeyState() { deadkey_state_ = this; } docstring const TransDeadkeyState::normalkey(char_type c) { docstring res; KmodException::iterator it = deadkey_info_.exception_list.begin(); KmodException::iterator end = deadkey_info_.exception_list.end(); for (; it != end; ++it) { if (it->c == c) { res = it->data; break; } } if (it == end) { res = doAccent(c, deadkey_info_.accent); } currentState = init_state_; return res; } docstring const TransDeadkeyState::deadkey(char_type c, KmodInfo d) { docstring res; // Check if the same deadkey was typed twice if (deadkey_ == c) { res = deadkey_; deadkey_ = 0; deadkey_info_.accent = TEX_NOACCENT; currentState = init_state_; return res; } // Check if it is a combination or an exception KmodException::const_iterator cit = deadkey_info_.exception_list.begin(); KmodException::const_iterator end = deadkey_info_.exception_list.end(); for (; cit != end; ++cit) { if (cit->combined == true && cit->accent == d.accent) { deadkey2_ = c; deadkey2_info_ = d; comb_info_ = (*cit); currentState = combined_state_; return docstring(); } if (cit->c == c) { res = cit->data; deadkey_ = 0; deadkey_info_.accent = TEX_NOACCENT; currentState = init_state_; return res; } } // Not a combination or an exception. // Output deadkey1 and keep deadkey2 if (deadkey_!= 0) res = deadkey_; deadkey_ = c; deadkey_info_ = d; currentState = deadkey_state_; return res; } TransCombinedState::TransCombinedState() { combined_state_ = this; } docstring const TransCombinedState::normalkey(char_type c) { docstring const temp = doAccent(c, deadkey2_info_.accent); docstring const res = doAccent(temp, deadkey_info_.accent); currentState = init_state_; return res; } docstring const TransCombinedState::deadkey(char_type c, KmodInfo d) { // Third key in a row. Output the first one and // reenter with shifted deadkeys docstring res; if (deadkey_ != 0) res = deadkey_; res += TOKEN_SEP; deadkey_ = deadkey2_; deadkey_info_ = deadkey2_info_; res += deadkey_state_->deadkey(c, d); return res; } // TransFSM TransFSM::TransFSM() : TransFSMData(), TransInitState(), TransDeadkeyState(), TransCombinedState() { currentState = init_state_; } // TransManager // Initialize static member. Trans TransManager::default_; TransManager::TransManager() : active_(0) {} int TransManager::setPrimary(string const & language) { if (t1_.getName() == language) return 0; return t1_.load(language); } int TransManager::setSecondary(string const & language) { if (t2_.getName() == language) return 0; return t2_.load(language); } void TransManager::enablePrimary() { if (t1_.isDefined()) active_ = &t1_; LYXERR(Debug::KBMAP, "Enabling primary keymap"); } void TransManager::enableSecondary() { if (t2_.isDefined()) active_ = &t2_; LYXERR(Debug::KBMAP, "Enabling secondary keymap"); } void TransManager::disableKeymap() { active_ = &default_; LYXERR(Debug::KBMAP, "Disabling keymap"); } void TransManager::translateAndInsert(char_type c, Text * text, Cursor & cur) { docstring res = active_->process(c, *this); // Process with tokens docstring temp; while (res.length() > 0) { res = split(res, temp, TransState::TOKEN_SEP); insert(temp, text, cur); } } void TransManager::insert(docstring const & str, Text * text, Cursor & cur) { for (size_t i = 0, n = str.size(); i != n; ++i) text->insertChar(cur, str[i]); } void TransManager::deadkey(char_type c, tex_accent accent, Text * t, Cursor & cur) { if (c == 0 && active_ != &default_) { // A deadkey was pressed that cannot be printed // or a accent command was typed in the minibuffer KmodInfo i; if (active_->isAccentDefined(accent, i) == true) { docstring const res = trans_fsm_ .currentState->deadkey(c, i); insert(res, t, cur); return; } } if (active_ == &default_ || c == 0) { KmodInfo i; i.accent = accent; i.data.erase(); docstring res = trans_fsm_.currentState->deadkey(c, i); insert(res, t, cur); } else { // Go through the translation translateAndInsert(c, t, cur); } } } // namespace lyx