DynamicShiftJISCodec *dynamiccodec = new DynamicShiftJISCodec(932); void cast_back(const HookParam &hp, void *data, size_t *len, const std::wstring &trans, bool normal) { if ((hp.type & EMBED_CODEC_UTF16) || (hp.type & CODEC_UTF16)) { // renpy write_string_overwrite(data, len, trans); } else { std::string astr; if (hp.type & EMBED_DYNA_SJIS && !normal) { astr = dynamiccodec->encodeSTD(trans, 0); } else { astr = WideStringToString(trans, hp.codepage ? hp.codepage : ((hp.type & CODEC_UTF8) ? CP_UTF8 : embedsharedmem->codepage)); } write_string_overwrite(data, len, astr); } } struct FunctionInfo { const char *name; // for debugging purpose uintptr_t *oldFunction, newFunction; bool attached; uintptr_t addr; explicit FunctionInfo(const uintptr_t _addr = 0, const char *name = "", uintptr_t *oldFunction = nullptr, uintptr_t newFunction = 0, bool attached = false) : name(name), oldFunction(oldFunction), newFunction(newFunction), attached(attached), addr(_addr) { } }; std::unordered_map funcs; // attached functions std::vector replacedfuns; // attached functions bool _1f() { #define ADD_FUN(_f) funcs[F_##_f] = FunctionInfo((uintptr_t)_f, #_f, (uintptr_t *)&Hijack::old##_f, (uintptr_t)Hijack::new##_f); ADD_FUN(CreateFontA) ADD_FUN(CreateFontW) ADD_FUN(CreateFontIndirectA) ADD_FUN(CreateFontIndirectW) ADD_FUN(GetGlyphOutlineA) ADD_FUN(GetGlyphOutlineW) ADD_FUN(GetTextExtentPoint32A) ADD_FUN(GetTextExtentPoint32W) ADD_FUN(GetTextExtentExPointA) ADD_FUN(GetTextExtentExPointW) // ADD_FUN(GetCharABCWidthsA) // ADD_FUN(GetCharABCWidthsW) ADD_FUN(TextOutA) ADD_FUN(TextOutW) ADD_FUN(ExtTextOutA) ADD_FUN(ExtTextOutW) ADD_FUN(DrawTextA) ADD_FUN(DrawTextW) ADD_FUN(DrawTextExA) ADD_FUN(DrawTextExW) ADD_FUN(CharNextA) // ADD_FUN(CharNextW) // ADD_FUN(CharNextExA) // ADD_FUN(CharNextExW) ADD_FUN(CharPrevA) // ADD_FUN(CharPrevW) ADD_FUN(MultiByteToWideChar) ADD_FUN(WideCharToMultiByte) #undef ADD_FUN return 0; } bool _1 = _1f(); void ReplaceFunction(PVOID *oldf, PVOID newf) { RemoveHook((uintptr_t)*oldf); DetourTransactionBegin(); DetourUpdateThread(GetCurrentThread()); DetourAttach((PVOID *)oldf, (PVOID)newf); DetourTransactionCommit(); } void attachFunction(uintptr_t _hook_font_flag) { for (auto &_func : funcs) { if (_func.first & _hook_font_flag) { if (_func.second.attached) continue; _func.second.attached = true; *_func.second.oldFunction = _func.second.addr; replacedfuns.push_back(_func.first); ReplaceFunction((PVOID *)_func.second.oldFunction, (PVOID)_func.second.newFunction); } } } void detachall() { DetourTransactionBegin(); DetourUpdateThread(GetCurrentThread()); for (auto _flag : replacedfuns) { auto info = funcs.at(_flag); DetourDetach((PVOID *)info.oldFunction, (PVOID)info.newFunction); } DetourTransactionCommit(); } void solvefont(HookParam hp) { if (hp.hook_font) { attachFunction(hp.hook_font); } if (hp.hook_font & F_MultiByteToWideChar) disable_mbwc = true; if (hp.hook_font & F_WideCharToMultiByte) disable_wcmb = true; if (auto current_patch_fun = patch_fun.exchange(nullptr)) { current_patch_fun(); dont_detach = true; } } static std::wstring alwaysInsertSpacesSTD(const std::wstring &text) { std::wstring ret; for (auto c : text) { ret.push_back(c); if (c >= 32) // ignore non-printable characters ret.push_back(L' '); // or insert \u3000 if needed } return ret; } bool charEncodableSTD(const wchar_t &ch, UINT codepage) { if (ch <= 127) // ignore ascii characters return true; std::wstring s; s.push_back(ch); return StringToWideString(WideStringToString(s, codepage), codepage).value() == s; } static std::wstring insertSpacesAfterUnencodableSTD(const std::wstring &text, HookParam hp) { std::wstring ret; for (const wchar_t &c : text) { ret.push_back(c); if (!charEncodableSTD(c, hp.codepage ? hp.codepage : embedsharedmem->codepage)) ret.push_back(L' '); } return ret; } std::wstring adjustSpacesSTD(const std::wstring &text, HookParam hp) { switch (embedsharedmem->spaceadjustpolicy) { case 0: return text; case 1: return alwaysInsertSpacesSTD(text); case 2: return insertSpacesAfterUnencodableSTD(text, hp); default: return text; } } bool isPauseKeyPressed() { return WinKey::isKeyControlPressed() || WinKey::isKeyShiftPressed() && !WinKey::isKeyReturnPressed(); } inline UINT64 djb2_n2(const unsigned char *str, size_t len, UINT64 hash = 5381) { int i = 0; while (len--) { hash = ((hash << 5) + hash) + (*str++); // hash * 33 + c } return hash; } std::unordered_map translatecache; bool check_is_thread_selected(const ThreadParam &tp) { for (int i = 0; i < 10; i++) if (embedsharedmem->use[i]) if ((embedsharedmem->addr[i] == tp.addr) && (embedsharedmem->ctx1[i] == tp.ctx) && (embedsharedmem->ctx2[i] == tp.ctx2)) return true; return false; } bool check_embed_able(const ThreadParam &tp) { return host_connected && check_is_thread_selected(tp) && ((isPauseKeyPressed() == false) ? true : !embedsharedmem->fastskipignore); } bool waitforevent(UINT32 timems, const ThreadParam &tp, const std::wstring &origin) { char eventname[1000]; sprintf(eventname, LUNA_EMBED_notify_event, GetCurrentProcessId(), djb2_n2((const unsigned char *)(origin.c_str()), origin.size() * 2)); auto event = win_event(eventname); while (timems) { if (check_embed_able(tp) == false) return false; auto sleepstep = min(100, timems); if (event.wait(sleepstep)) return true; timems -= sleepstep; } return false; } void TextHook::parsenewlineseperator(void *data, size_t *len) { if (!(hp.newlineseperator)) return; if (hp.type & CODEC_UTF16) { StringReplacer((wchar_t *)data, len, hp.newlineseperator, wcslen(hp.newlineseperator), L"\n", 1); } else if (hp.type & CODEC_UTF32) return; else { // ansi/utf8,newlineseperator都是简单字符 std::string newlineseperatorA; for (int i = 0; i < wcslen(hp.newlineseperator); i++) newlineseperatorA += (char)hp.newlineseperator[i]; StringReplacer((char *)data, len, newlineseperatorA.c_str(), newlineseperatorA.size(), "\n", 1); } } UINT64 texthash(void *data, size_t len) { UINT64 sum = 0; auto u8data = (UINT8 *)data; for (int i = 0; i < len; i++) { sum += u8data[i]; sum = sum << 1; } return sum; } bool checktranslatedok(void *data, size_t len) { ZeroMemory(embedsharedmem->text, sizeof(embedsharedmem->text)); // clear trans before call if (len > 1000) return true; return (translatecache.find(texthash(data, len)) != translatecache.end()); } bool TextHook::waitfornotify(TextOutput_T *buffer, void *data, size_t *len, ThreadParam tp) { std::wstring origin; if (auto t = commonparsestring(data, *len, &hp, embedsharedmem->codepage)) origin = t.value(); else return false; std::wstring translate; auto hash = texthash(data, *len); if (translatecache.find(hash) != translatecache.end()) { translate = translatecache.at(hash); } else { if (waitforevent(embedsharedmem->waittime, tp, origin) == false) return false; translate = embedsharedmem->text; if ((translate.size() == 0)) return false; translatecache.insert(std::make_pair(hash, translate)); } if (hp.newlineseperator) strReplace(translate, L"\n", hp.newlineseperator); translate = adjustSpacesSTD(translate, hp); if (embedsharedmem->keeprawtext) translate = origin + L" " + translate; solvefont(hp); cast_back(hp, data, len, translate, false); return true; }