#include "cli_localization_catalog.hpp" #include "cli_arg_parse.hpp" #include "cli_box_emitter.hpp" #include "pipeline/wowee_localization.hpp" #include #include #include #include #include #include #include #include namespace wowee { namespace editor { namespace cli { namespace { std::string stripWlanExt(std::string base) { stripExt(base, ".wlan"); return base; } const char* languageCodeName(uint8_t l) { using L = wowee::pipeline::WoweeLocalization; switch (l) { case L::enUS: return "enUS"; case L::enGB: return "enGB"; case L::deDE: return "deDE"; case L::esES: return "esES"; case L::frFR: return "frFR"; case L::itIT: return "itIT"; case L::koKR: return "koKR"; case L::ptBR: return "ptBR"; case L::ruRU: return "ruRU"; case L::zhCN: return "zhCN"; case L::zhTW: return "zhTW"; case L::Unknown: return "Unknown"; default: return "?"; } } const char* namespaceName(uint8_t n) { using L = wowee::pipeline::WoweeLocalization; switch (n) { case L::UI: return "ui"; case L::Quest: return "quest"; case L::Item: return "item"; case L::Spell: return "spell"; case L::Creature: return "creature"; case L::Tooltip: return "tooltip"; case L::Gossip: return "gossip"; case L::System: return "system"; default: return "unknown"; } } bool saveOrError(const wowee::pipeline::WoweeLocalization& c, const std::string& base, const char* cmd) { if (!wowee::pipeline::WoweeLocalizationLoader::save(c, base)) { std::fprintf(stderr, "%s: failed to save %s.wlan\n", cmd, base.c_str()); return false; } return true; } void printGenSummary(const wowee::pipeline::WoweeLocalization& c, const std::string& base) { std::printf("Wrote %s.wlan\n", base.c_str()); std::printf(" catalog : %s\n", c.name.c_str()); std::printf(" strings : %zu\n", c.entries.size()); } int handleGenUI(int& i, int argc, char** argv) { std::string base = argv[++i]; std::string name = "UIBasicsLocalization"; if (parseOptArg(i, argc, argv)) name = argv[++i]; base = stripWlanExt(base); auto c = wowee::pipeline::WoweeLocalizationLoader::makeUIBasics(name); if (!saveOrError(c, base, "gen-lan")) return 1; printGenSummary(c, base); return 0; } int handleGenQuest(int& i, int argc, char** argv) { std::string base = argv[++i]; std::string name = "QuestSampleLocalization"; if (parseOptArg(i, argc, argv)) name = argv[++i]; base = stripWlanExt(base); auto c = wowee::pipeline::WoweeLocalizationLoader::makeQuestSample(name); if (!saveOrError(c, base, "gen-lan-quest")) return 1; printGenSummary(c, base); return 0; } int handleGenTooltip(int& i, int argc, char** argv) { std::string base = argv[++i]; std::string name = "TooltipSetLocalization"; if (parseOptArg(i, argc, argv)) name = argv[++i]; base = stripWlanExt(base); auto c = wowee::pipeline::WoweeLocalizationLoader::makeTooltipSet(name); if (!saveOrError(c, base, "gen-lan-tooltip")) return 1; printGenSummary(c, base); return 0; } int handleInfo(int& i, int argc, char** argv) { std::string base = argv[++i]; bool jsonOut = consumeJsonFlag(i, argc, argv); base = stripWlanExt(base); if (!wowee::pipeline::WoweeLocalizationLoader::exists(base)) { std::fprintf(stderr, "WLAN not found: %s.wlan\n", base.c_str()); return 1; } auto c = wowee::pipeline::WoweeLocalizationLoader::load(base); if (jsonOut) { nlohmann::json j; j["wlan"] = base + ".wlan"; j["name"] = c.name; j["count"] = c.entries.size(); nlohmann::json arr = nlohmann::json::array(); for (const auto& e : c.entries) { arr.push_back({ {"stringId", e.stringId}, {"name", e.name}, {"description", e.description}, {"languageCode", e.languageCode}, {"languageCodeName", languageCodeName(e.languageCode)}, {"namespace", e.namespace_}, {"namespaceName", namespaceName(e.namespace_)}, {"originalKey", e.originalKey}, {"localizedText", e.localizedText}, {"iconColorRGBA", e.iconColorRGBA}, }); } j["entries"] = arr; std::printf("%s\n", j.dump(2).c_str()); return 0; } std::printf("WLAN: %s.wlan\n", base.c_str()); std::printf(" catalog : %s\n", c.name.c_str()); std::printf(" strings : %zu\n", c.entries.size()); if (c.entries.empty()) return 0; std::printf(" id lang ns key text\n"); for (const auto& e : c.entries) { std::printf(" %4u %-4s %-9s %-25s %s\n", e.stringId, languageCodeName(e.languageCode), namespaceName(e.namespace_), e.originalKey.c_str(), e.localizedText.c_str()); } return 0; } int handleValidate(int& i, int argc, char** argv) { std::string base = argv[++i]; bool jsonOut = consumeJsonFlag(i, argc, argv); base = stripWlanExt(base); if (!wowee::pipeline::WoweeLocalizationLoader::exists(base)) { std::fprintf(stderr, "validate-wlan: WLAN not found: %s.wlan\n", base.c_str()); return 1; } auto c = wowee::pipeline::WoweeLocalizationLoader::load(base); std::vector errors; std::vector warnings; if (c.entries.empty()) { warnings.push_back("catalog has zero entries"); } std::set idsSeen; // Per-(originalKey, languageCode, namespace_) triple // uniqueness — two entries with all three matching // would tie at runtime when the locale-aware text // layer looks up an override. std::set tripleSeen; auto tripleKey = [](const std::string& key, uint8_t lang, uint8_t ns) { return std::to_string(lang) + "|" + std::to_string(ns) + "|" + key; }; for (size_t k = 0; k < c.entries.size(); ++k) { const auto& e = c.entries[k]; std::string ctx = "entry " + std::to_string(k) + " (id=" + std::to_string(e.stringId); if (!e.name.empty()) ctx += " " + e.name; ctx += ")"; if (e.stringId == 0) errors.push_back(ctx + ": stringId is 0"); if (e.name.empty()) errors.push_back(ctx + ": name is empty"); if (e.languageCode > 10 && e.languageCode != 255) { errors.push_back(ctx + ": languageCode " + std::to_string(e.languageCode) + " out of range (must be 0..10 or 255 " "Unknown)"); } if (e.namespace_ > 7) { errors.push_back(ctx + ": namespace " + std::to_string(e.namespace_) + " out of range (must be 0..7)"); } if (e.originalKey.empty()) { errors.push_back(ctx + ": originalKey is empty — locale-aware " "text layer has nothing to look up"); } if (e.localizedText.empty()) { warnings.push_back(ctx + ": localizedText is empty — override " "would render blank, possibly worse than " "falling through to default"); } // Triple uniqueness check. if (!e.originalKey.empty()) { std::string key = tripleKey(e.originalKey, e.languageCode, e.namespace_); if (!tripleSeen.insert(key).second) { errors.push_back(ctx + ": (originalKey='" + e.originalKey + "', languageCode=" + std::string(languageCodeName(e.languageCode)) + ", namespace=" + std::string(namespaceName(e.namespace_)) + ") triple already bound by another " "entry — locale lookup would tie " "non-deterministically"); } } if (!idsSeen.insert(e.stringId).second) { errors.push_back(ctx + ": duplicate stringId"); } } bool ok = errors.empty(); if (jsonOut) { nlohmann::json j; j["wlan"] = base + ".wlan"; j["ok"] = ok; j["errors"] = errors; j["warnings"] = warnings; std::printf("%s\n", j.dump(2).c_str()); return ok ? 0 : 1; } std::printf("validate-wlan: %s.wlan\n", base.c_str()); if (ok && warnings.empty()) { std::printf(" OK — %zu strings, all stringIds + " "(key,lang,ns) triples unique\n", c.entries.size()); return 0; } if (!warnings.empty()) { std::printf(" warnings (%zu):\n", warnings.size()); for (const auto& w : warnings) std::printf(" - %s\n", w.c_str()); } if (!errors.empty()) { std::printf(" ERRORS (%zu):\n", errors.size()); for (const auto& e : errors) std::printf(" - %s\n", e.c_str()); } return ok ? 0 : 1; } } // namespace bool handleLocalizationCatalog(int& i, int argc, char** argv, int& outRc) { if (std::strcmp(argv[i], "--gen-lan") == 0 && i + 1 < argc) { outRc = handleGenUI(i, argc, argv); return true; } if (std::strcmp(argv[i], "--gen-lan-quest") == 0 && i + 1 < argc) { outRc = handleGenQuest(i, argc, argv); return true; } if (std::strcmp(argv[i], "--gen-lan-tooltip") == 0 && i + 1 < argc) { outRc = handleGenTooltip(i, argc, argv); return true; } if (std::strcmp(argv[i], "--info-wlan") == 0 && i + 1 < argc) { outRc = handleInfo(i, argc, argv); return true; } if (std::strcmp(argv[i], "--validate-wlan") == 0 && i + 1 < argc) { outRc = handleValidate(i, argc, argv); return true; } return false; } } // namespace cli } // namespace editor } // namespace wowee