/* SPDX-License-Identifier: GPL-3.0-or-later Copyright © 2015-2022 Amebis */ #include "pch.h" using namespace std; using namespace stdex; using namespace winstd; /// /// (destination character rank, (source character rank, source character)) data holder /// class com_translation { public: short rank_src; ///< Source sequence rank short rank_dst; ///< Destination character rank string norm; ///< Normalization footprint inline com_translation() : rank_src(0), rank_dst(0) { } inline com_translation(short _rank_src, short _rank_dst) : rank_src(_rank_src), rank_dst(_rank_dst) { } inline com_translation(short _rank_src, short _rank_dst, const char *_norm) : rank_src(_rank_src), rank_dst(_rank_dst), norm (_norm ) { } inline com_translation(short _rank_src, short _rank_dst, string &&_norm) : rank_src( _rank_src ), rank_dst( _rank_dst ), norm (std::move(_norm )) { } inline com_translation(const com_translation &other) : rank_src(other.rank_src), rank_dst(other.rank_dst), norm (other.norm ) { } inline com_translation(com_translation &&other) noexcept : rank_src( other.rank_src ), rank_dst( other.rank_dst ), norm (std::move(other.norm )) { } inline com_translation& operator=(const com_translation &other) { if (this != std::addressof(other)) { rank_src = other.rank_src; rank_dst = other.rank_dst; norm = other.norm ; } return *this; } inline com_translation& operator=(com_translation &&other) noexcept { if (this != std::addressof(other)) { rank_src = other.rank_src ; rank_dst = other.rank_dst ; norm = std::move(other.norm ); } return *this; } inline bool operator==(_In_ const com_translation& other) const { return rank_src == other.rank_src && rank_dst == other.rank_dst && norm == other.norm; } inline bool operator!=(_In_ const com_translation &other) const { return !operator==(other); } inline bool operator<(_In_ const com_translation& other) const { if (rank_src < other.rank_src) return true; else if (rank_src > other.rank_src) return false; else if (rank_dst < other.rank_dst) return true; else if (rank_dst > other.rank_dst) return false; else if (norm < other.norm ) return true; else return false; } inline bool operator<=(_In_ const com_translation &other) const { return !operator>(other); } inline bool operator>(_In_ const com_translation &other) const { return other.operator<(*this); } inline bool operator>=(_In_ const com_translation &other) const { return !operator<(other); } }; typedef map > translation_db; typedef map normperm_db; static set translate_inv(_In_ const translation_db &db_trans, _In_ const normperm_db &db_np, _In_z_ const wchar_t *str, _Inout_ set &path); static inline set permutate_and_translate_inv(_In_ const translation_db &db_trans, _In_ const normperm_db &db_np, _In_z_ const wchar_t *str, _In_z_ const char *norm, _Inout_ set &path); static set translate_inv(_In_ const translation_db &db_trans, _In_ const normperm_db &db_np, _In_z_ const wchar_t *str, _Inout_ set &path) { set res; if (!*str) { // Empty string results in empty inverse translation. res.insert(ZRCola::DBSource::charseq(0, L"")); return res; } // Prepare inverse translate of the remainder string (without the first character). auto res_rem = translate_inv(db_trans, db_np, str + 1, path); if (res_rem.empty()) return res; // See if first character is inverse translatable. translation_db::key_type chr(1, *str); auto const hit_trans = db_trans.find(chr); if (hit_trans != db_trans.end()) { // Current character is inverse translatable. // Add the current character to the path before recursing. auto hit_path = path.insert(chr); if (!hit_path.second) { // Path already contains this character: Cycle detected! return res; } // Iterate all possible character inverse translations and combine them with the remainder string inverse translations. for (auto d = hit_trans->second.cbegin(), d_end = hit_trans->second.cend(); d != d_end; ++d) { auto res_chr = d->second.norm.empty() ? translate_inv(db_trans, db_np, d->first.c_str(), path) : permutate_and_translate_inv(db_trans, db_np, d->first.c_str(), d->second.norm.c_str(), path); if (!res_chr.empty()) { for (auto r_chr = res_chr.cbegin(), r_chr_end = res_chr.cend(); r_chr != r_chr_end; ++r_chr) { for (auto r_rem = res_rem.cbegin(), r_rem_end = res_rem.cend(); r_rem != r_rem_end; ++r_rem) res.insert(ZRCola::DBSource::charseq(d->second.rank_src + r_chr->rank + r_rem->rank, r_chr->str + r_rem->str)); } } else { // Cycle detected. Do not continue inverse translation. for (auto r_rem = res_rem.cbegin(), r_end = res_rem.cend(); r_rem != r_end; ++r_rem) res.insert(ZRCola::DBSource::charseq(r_rem->rank, chr + r_rem->str)); } } // Remove the current character from the path. path.erase(hit_path.first); } else { // First character is non-inverse translatable. Combine it with the remainder(s). for (auto r_rem = res_rem.cbegin(), r_end = res_rem.cend(); r_rem != r_end; ++r_rem) res.insert(ZRCola::DBSource::charseq(r_rem->rank, chr + r_rem->str)); } return res; } static inline set permutate_and_translate_inv(_In_ const translation_db &db_trans, _In_ const normperm_db &db_np, _In_z_ const wchar_t *str, _In_z_ const char *norm, _Inout_ set &path) { // Primary permutation inverse translate. auto res = translate_inv(db_trans, db_np, str, path); // Secondary permutation(s). auto const hit_np = db_np.find(norm); if (hit_np != db_np.end()) { for (auto perm = hit_np->second.cbegin(), perm_end = hit_np->second.cend(); perm != perm_end; ++perm) { // Prepare permutated string. translation_db::mapped_type::key_type str_perm; for (auto idx = perm->cbegin(), idx_end = perm->cend(); idx != idx_end; ++idx) str_perm += str[*idx]; // Secondary permutation inverse translate. auto res_perm = translate_inv(db_trans, db_np, str_perm.c_str(), path); for (auto r = res_perm.cbegin(), r_end = res_perm.cend(); r != r_end; ++r) res.insert(ZRCola::DBSource::charseq(r->rank + 1, r->str)); } } return res; } /// /// Main function /// int _tmain(int argc, _TCHAR *argv[]) { wxApp::CheckBuildOptions(WX_BUILD_OPTIONS_SIGNATURE, "program"); // Initialize wxWidgets. wxInitializer initializer; if (!initializer) { _ftprintf(stderr, wxT("Failed to initialize the wxWidgets library, aborting.\n")); return -1; } // Initialize configuration. wxConfigBase *cfgPrev = wxConfigBase::Set(new wxConfig(wxT(PRODUCT_CFG_APPLICATION), wxT(PRODUCT_CFG_VENDOR))); if (cfgPrev) wxDELETE(cfgPrev); // Initialize locale. wxLocale locale; if (wxInitializeLocale(locale)) wxVERIFY(locale.AddCatalog(wxT("ZRColaCompile"))); // Parse command line. static const wxCmdLineEntryDesc cmdLineDesc[] = { { wxCMD_LINE_SWITCH, "h" , "help" , _("Show this help message"), wxCMD_LINE_VAL_NONE , wxCMD_LINE_OPTION_HELP }, { wxCMD_LINE_PARAM , NULL, NULL , _("" ), wxCMD_LINE_VAL_STRING, wxCMD_LINE_OPTION_MANDATORY }, { wxCMD_LINE_PARAM , NULL, NULL , _("" ), wxCMD_LINE_VAL_STRING, wxCMD_LINE_OPTION_MANDATORY }, { wxCMD_LINE_OPTION, NULL, "pot-cat", _("Output POT catalog" ), wxCMD_LINE_VAL_STRING, wxCMD_LINE_PARAM_OPTIONAL }, { wxCMD_LINE_NONE } }; wxCmdLineParser parser(cmdLineDesc, argc, argv); switch (parser.Parse()) { case -1: // Help was given, terminating. return 0; case 0: // everything is ok; proceed break; default: wxLogMessage(wxT("Syntax error detected, aborting.")); return -1; } // Initialize COM (CoInitialize). wxCoInitializer initializerOLE(COINIT_MULTITHREADED | COINIT_SPEED_OVER_MEMORY); if (!initializerOLE) { _ftprintf(stderr, wxT("Error initializing COM.\n")); return -1; } ZRCola::DBSource src; const wxString& filenameIn = parser.GetParam(0); if (!src.Open(filenameIn)) { _ftprintf(stderr, wxT("%s: error ZCC0001: Error opening input file.\n"), filenameIn.fn_str()); return 1; } const wxString& filenameOut = parser.GetParam(1); fstream dst((LPCTSTR)filenameOut, ios_base::out | ios_base::trunc | ios_base::binary); if (dst.fail()) { _ftprintf(stderr, wxT("%s: error ZCC0002: Error opening output file.\n"), filenameOut.fn_str()); return 1; } bool has_errors = false; // Set of strings to translate. wxString filenamePot; bool build_pot = parser.Found("pot-cat", &filenamePot); set pot; // Open file ID. streamoff dst_start = idrec::open(dst, ZRCOLA_DB_ID); ZRCola::translation_db db_trans; ZRCola::transet_db db_transset; normperm_db db_np; { // Get normalization permutation sets. com_obj rs; if (src.SelectNormPermSets(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) string norm; ZRCola::DBSource::normperm np; // Parse normalization permutation sets. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read normalization permutation set from the database. if (src.GetNormPerm(rs, norm, np)) { if (!np.empty()) db_np.insert(pair(norm, std::move(np))); } else has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0009: Error getting translation set count from database or too many translation sets.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0008: Error getting translation sets from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get translations. com_obj rs; if (src.SelectTranslations(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) // Parse translations and build temporary database. translation_db db_temp1; for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read translation from the database. ZRCola::DBSource::translation trans; if (src.GetTranslation(rs, trans)) { // Add translation to temporary database. pair ctp(std::move(trans.src.str), translation_db::mapped_type::mapped_type(trans.src.rank, trans.dst.rank, std::move(trans.norm))); auto hit = db_temp1.find(trans.dst.str); if (hit != db_temp1.end()) hit->second.insert(std::move(ctp)); else { translation_db::mapped_type t; t.insert(std::move(ctp)); db_temp1.insert(pair(std::move(trans.dst.str), std::move(t))); } } else has_errors = true; } // Inverse translate source sequences down to non-inverse translatable characters. translation_db db_temp2; for (auto t1 = db_temp1.cbegin(), t1_end = db_temp1.cend(); t1 != t1_end; ++t1) { auto t2 = db_temp2.insert(pair(t1->first, translation_db::mapped_type())).first; for (auto d1 = t1->second.cbegin(), d1_end = t1->second.cend(); d1 != d1_end; ++d1) { set path; path.insert(t1->first); auto res = d1->second.norm.empty() ? translate_inv(db_temp1, db_np, d1->first.c_str(), path) : permutate_and_translate_inv(db_temp1, db_np, d1->first.c_str(), d1->second.norm.c_str(), path); assert(!res.empty()); // Add translation to temporary database. for (auto r = res.cbegin(), r_end = res.cend(); r != r_end; ++r) { translation_db::mapped_type::mapped_type ct(d1->second.rank_src + r->rank, d1->second.rank_dst); auto hit = t2->second.find(r->str); if (hit != t2->second.end()) { hit->second.rank_src = std::min(hit->second.rank_src, ct.rank_src); hit->second.rank_dst = std::max(hit->second.rank_dst, ct.rank_dst); } else t2->second.insert(pair(r->str, std::move(ct))); } } } // Preallocate memory. db_trans.idxSrc.reserve(count*2); db_trans.idxDst.reserve(count*2); db_trans.data .reserve(count*2*8); // Parse translations and build index and data. ZRCola::DBSource::translation trans; for (auto t = db_temp2.cbegin(), t_end = db_temp2.cend(); t != t_end; ++t) { // Add translation to index and data. trans.dst.str = t->first; for (auto d = t->second.cbegin(), d_end = t->second.cend(); d != d_end; ++d) { trans.set = (short)ZRCOLA_TRANSETID_DEFAULT; trans.dst.rank = d->second.rank_dst; trans.src.rank = d->second.rank_src; trans.src.str = d->first; db_trans << trans; // If destination contains no PUA characters, add it to the ZRCola » Unicode transliteration too. bool has_pua = false; for (auto ch = trans.dst.str.cbegin(), ch_end = trans.dst.str.cend(); ch != ch_end; ++ch) if (ZRCola::ispua(*ch)) { has_pua = true; break; } if (!has_pua) { trans.set = (short)ZRCOLA_TRANSETID_UNICODE; trans.dst.rank += 50; db_trans << trans; } } } } else { _ftprintf(stderr, wxT("%s: error ZCC0004: Error getting translation count from database or too many translations.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0003: Error getting translations from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { com_obj rs_tran; if (src.SelectTranslations(static_cast(ZRCOLA_TRANSETID_UNICODE), rs_tran)) { size_t count = src.GetRecordsetCount(rs_tran); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) // Preallocate memory. db_trans.idxSrc.reserve(db_trans.idxSrc.size() + count); db_trans.idxDst.reserve(db_trans.idxDst.size() + count); db_trans.data .reserve(db_trans.data.size() + count*8); // Parse translations and build temporary database. ZRCola::DBSource::translation trans; trans.set = (short)ZRCOLA_TRANSETID_UNICODE; for (; !ZRCola::DBSource::IsEOF(rs_tran); rs_tran->MoveNext()) { // Read translation from the database. if (src.GetTranslation(rs_tran, trans)) { // Add translation to index and data. db_trans << trans; } else has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0004: Error getting Unicode translation count from database or too many translations.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0003: Error getting Unicode translations from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get translation sets. com_obj rs; if (src.SelectTranlationSets(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) // Preallocate memory. db_transset.idxTranSet.reserve((count+1)); db_transset.data .reserve((count+1)*4); // Parse translation sets and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read translation set from the database. ZRCola::DBSource::transet ts; if (src.GetTranslationSet(rs, ts)) { if (ts.set <= (short)ZRCOLA_TRANSETID_DEFAULT || (short)ZRCOLA_TRANSETID_UNICODE <= ts.set) continue; if (build_pot) { pot.insert(ts.src); pot.insert(ts.dst); } // Add translation set to index and data. db_transset << ts; // Get translations. com_obj rs_tran; if (src.SelectTranslations(ts.set, rs_tran)) { count = src.GetRecordsetCount(rs_tran); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) // Preallocate memory. db_trans.idxSrc.reserve(db_trans.idxSrc.size() + count); db_trans.idxDst.reserve(db_trans.idxDst.size() + count); db_trans.data .reserve(db_trans.data.size() + count*8); // Parse translations and build temporary database. ZRCola::DBSource::translation trans; trans.set = ts.set; for (; !ZRCola::DBSource::IsEOF(rs_tran); rs_tran->MoveNext()) { // Read translation from the database. if (src.GetTranslation(rs_tran, trans)) { // Add translation to index and data. db_trans << trans; } else has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0004: Error getting translation count from database or too many translations.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0003: Error getting translations from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0009: Error getting translation set count from database or too many translation sets.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0008: Error getting translation sets from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } // Write translation sets to file. db_transset.idxTranSet.sort(); dst << ZRCola::transet_rec(db_transset); // Write translations to file. db_trans.idxSrc.sort(); db_trans.idxDst.sort(); dst << ZRCola::translation_rec(db_trans); { // Get translation sequences. com_obj rs; if (src.SelectTranlationSeqs(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::transeq_db db; // Preallocate memory. db.idxTranSeq.reserve((count+1)); db.idxRank .reserve((count+1)); db.data .reserve((count+1)*4); // Parse translation sequences and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read translation sequence from the database. ZRCola::DBSource::transeq ts; if (src.GetTranslationSeq(rs, ts)) { if (build_pot) pot.insert(ts.name); // Add translation sequence to index and data. db << ts; } else has_errors = true; } // Write translation sequences to file. db.idxTranSeq.sort(); db.idxRank .sort(); dst << ZRCola::transeq_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0025: Error getting translation sequence count from database or too many translation sequences.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0024: Error getting translation sequences from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get key sequences. com_obj rs; if (src.SelectKeySequences(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::keyseq ks; ZRCola::keyseq_db db; // Preallocate memory. db.idxChr.reserve(count); db.idxKey.reserve(count); db.data .reserve(count*4); // Parse key sequences and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read key sequence from the database. if (src.GetKeySequence(rs, ks)) { // Add key sequence to index and data. db << ks; } else has_errors = true; } // Sort indices. db.idxChr.sort(); db.idxKey.sort(); // Check key sequences. for (ZRCola::keyseq_db::indexKey::size_type i = 1, n = db.idxKey.size(); i < n; i++) { const ZRCola::keyseq_db::keyseq &ks1 = db.idxKey[i - 1], &ks2 = db.idxKey[i ]; if (ZRCola::keyseq_db::keyseq::CompareSequence(ks1.seq(), ks1.seq_len(), ks2.seq(), ks2.seq_len()) == 0) { wxString seq_str; ZRCola::keyseq_db::GetSequenceAsText(ks1.seq(), ks1.seq_len(), seq_str); _ftprintf(stderr, wxT("%s: warning ZCC0007: Duplicate key sequence (%s => %s or %s). The keyboard behaviour will be unpredictable.\n"), (LPCTSTR)filenameIn.c_str(), (LPCTSTR)seq_str.c_str(), ZRCola::GetUnicodeDump(ks1.chr(), ks1.chr_len()).c_str(), ZRCola::GetUnicodeDump(ks2.chr(), ks2.chr_len()).c_str()); } } // Write translations to file. dst << ZRCola::keyseq_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0006: Error getting key sequence count from database or too many key sequences.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0005: Error getting key sequences from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get languages. com_obj rs; if (src.SelectLanguages(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::language lang; ZRCola::language_db db; // Preallocate memory. db.idxLang.reserve(count); db.data .reserve(count*4); // Parse languages and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read language from the database. if (src.GetLanguage(rs, lang)) { if (build_pot) pot.insert(lang.name); // Add language to index and data. db << lang; } else has_errors = true; } // Write languages to file. db.idxLang.sort(); dst << ZRCola::language_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0009: Error getting language count from database or too many languages.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0008: Error getting languages from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get language characters. com_obj rs; if (src.SelectLanguageCharacters(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::langchar lc; ZRCola::langchar_db db; // Preallocate memory. db.idxChr .reserve(count); #ifdef ZRCOLA_LANGCHAR_LANG_IDX db.idxLang.reserve(count); #endif db.data .reserve(count*4); // Parse language characters and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read language characters from the database. if (src.GetLanguageCharacter(rs, lc)) { // Add language characters to index and data. db << lc; } else has_errors = true; } // Write language characters to file. db.idxChr .sort(); #ifdef ZRCOLA_LANGCHAR_LANG_IDX db.idxLang.sort(); #endif dst << ZRCola::langchar_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0011: Error getting language characters count from database or too many langchars.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0010: Error getting language characters from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get character groups. com_obj rs; if (src.SelectCharacterGroups(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::chrgrp cg; ZRCola::chrgrp_db db; // Preallocate memory. db.idxRank.reserve(count); db.data .reserve(count*4); // Parse character groups and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read character group from the database. if (src.GetCharacterGroup(rs, cg)) { if (build_pot) pot.insert(cg.name); if (cg.chars.empty()) { // Skip empty character groups. continue; } // Add character group to index and data. db << cg; } else has_errors = true; } // Write character groups to file. db.idxRank.sort(); dst << ZRCola::chrgrp_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0015: Error getting character group count from database or too many character groups.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0014: Error getting character groups from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } set categories_used; { // Get characters. com_obj rs; if (src.SelectCharacters(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::character_desc_idx idxChrDsc, idxChrDscSub; ZRCola::DBSource::character_bank chrs; // Phase 1: Parse characters and build indexes. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read character from the database. ZRCola::DBSource::character chr; if (src.GetCharacter(rs, chr)) chrs[chr.first] = std::move(chr.second); else has_errors = true; } // Phase 2: Build related character lists. chrs.build_related(); ZRCola::character_db db; // Preallocate memory. db.idxChr.reserve(count); db.data .reserve(count*4); // Phase 3: Parse characters and build index and data. for (auto chr = chrs.cbegin(), chr_end = chrs.cend(); chr != chr_end; ++chr) { // Add character to index and data. db << *chr; // Add description (and keywords) to index. idxChrDsc .add_keywords(chr->second.terms, chr->first, 0); idxChrDscSub.add_keywords(chr->second.terms, chr->first, 3); // Mark category used. categories_used.insert(chr->second.cat); } // Write characters to file. db.idxChr.sort(); idxChrDsc .save(db.idxDsc ); idxChrDscSub.save(db.idxDscSub); dst << ZRCola::character_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0017: Error getting character count from database or too many characters.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0016: Error getting characters from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get character categories. com_obj rs; if (src.SelectCharacterCategories(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::chrcat cc; ZRCola::chrcat_db db; // Preallocate memory. db.idxChrCat.reserve(count); db.idxRank .reserve(count); db.data .reserve(count*4); // Parse character categories and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read character category from the database. if (src.GetCharacterCategory(rs, cc)) { if (build_pot) pot.insert(cc.name); if (categories_used.find(cc.cat) == categories_used.end()) { // Skip empty character categories. continue; } // Add character category to index and data. db << cc; } else has_errors = true; } // Write character categories to file. db.idxChrCat.sort(); db.idxRank .sort(); dst << ZRCola::chrcat_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0019: Error getting character category count from database or too many character categories.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0018: Error getting character categories from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get characters tags. com_obj rs; if (src.SelectCharacterTags(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::chrtag ct; ZRCola::chrtag_db db; // Preallocate memory. db.idxChr.reserve(count); db.idxTag.reserve(count); db.data .reserve(count*4); // Parse characters tags and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read characters tags from the database. if (src.GetCharacterTag(rs, ct)) { // Add characters tags to index and data. db << ct; } else has_errors = true; } // Write characters tags to file. db.idxChr.sort(); db.idxTag.sort(); dst << ZRCola::chrtag_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0021: Error getting characters tags count from database or too many character tags.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0020: Error getting characters tags from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get tag names. com_obj rs; if (src.SelectTagNames(rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::tagname tn; ZRCola::tagname_db db; // Preallocate memory. db.idxName.reserve(count*3); db.idxTag .reserve(count*3); db.data .reserve(count*3*4); // Parse tags and build index and data. for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read tag name from the database. if (src.GetTagName(rs, tn)) { // Add tag name to index and data. db << tn; } else has_errors = true; } // Write tags to file. db.idxName.sort(); db.idxTag .sort(); dst << ZRCola::tagname_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0023: Error getting tag name count from database or too many tags.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0022: Error getting tags from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } { // Get highlights. com_obj rs; if (src.SelectHighlights((short)ZRCOLA_HLGHTSETID_ZRCOLA_UNICODE_COMPOSED_ISSUES, rs)) { size_t count = src.GetRecordsetCount(rs); if (count < 0xffffffff) { // 4G check (-1 is reserved for error condition) ZRCola::DBSource::highlight h; ZRCola::highlight_db db; // Preallocate memory. db.idxChr.reserve(count); db.data .reserve(count*5); // Parse highlights and build index and data. h.set = (short)ZRCOLA_HLGHTSETID_ZRCOLA_UNICODE_COMPOSED_ISSUES; for (; !ZRCola::DBSource::IsEOF(rs); rs->MoveNext()) { // Read tag name from the database. if (src.GetHighlight(rs, h)) { // Add highlight to index and data. db << h; } else has_errors = true; } // Write highlights to file. db.idxChr.sort(); dst << ZRCola::highlight_rec(db); } else { _ftprintf(stderr, wxT("%s: error ZCC0027: Error getting highlight count from database or too many tags.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } else { _ftprintf(stderr, wxT("%s: error ZCC0026: Error getting highlights from database. Please make sure the file is ZRCola.zrc compatible.\n"), (LPCTSTR)filenameIn.c_str()); has_errors = true; } } idrec::close(dst, dst_start); if (dst.fail()) { _ftprintf(stderr, wxT("%s: error ZCC1000: Writing to output file failed.\n"), (LPCTSTR)filenameOut.c_str()); has_errors = true; } if (!has_errors && build_pot) { fstream dst_pot((LPCTSTR)filenamePot, ios_base::out | ios_base::trunc); if (dst_pot.good()) { dst_pot << "msgid \"\"" << endl << "msgstr \"\"" << endl << "\"Project-Id-Version: ZRCola.zrcdb\\n\"" << endl << "\"Language: en\\n\"" << endl << "\"MIME-Version: 1.0\\n\"" << endl << "\"Content-Type: text/plain; charset=UTF-8\\n\"" << endl << "\"Content-Transfer-Encoding: 8bit\\n\"" << endl << "\"X-Generator: ZRColaCompile\\n\"" << endl; wstring_convert> conv; for (auto p = pot.cbegin(); p != pot.cend(); ++p) { // Convert UTF-16 to UTF-8 and escape. string t(conv.to_bytes(*p)), u; for (size_t i = 0, n = t.size(); i < n; i++) { char c = t[i]; switch (c) { case '\'': u += "\\\'"; break; case '\"': u += "\\\""; break; case '\n': u += "\\\n"; break; case '\t': u += "\\\t"; break; default : u += c; } } dst_pot << endl << "msgid \"" << u << "\"" << endl << "msgstr \"\"" << endl; } if (dst_pot.fail()) { _ftprintf(stderr, wxT("%s: error ZCC0013: Writing to POT catalog failed.\n"), (LPCTSTR)filenameOut.c_str()); has_errors = true; } dst_pot.close(); } else { _ftprintf(stderr, wxT("%s: error ZCC0012: Error opening POT catalog.\n"), filenameOut.fn_str()); has_errors = true; } } if (has_errors) { dst.close(); wxRemoveFile(filenameOut); return 1; } else return 0; }