#include #include "emujitarg.hpp" namespace ppsspp { bool ULJS00403_filter(void *data, size_t *len, HookParam *hp) { std::string result = std::string((char *)data, *len); std::regex newlinePattern(R"((\\n)+)"); result = std::regex_replace(result, newlinePattern, " "); std::regex pattern(R"((\\d$|^\@[a-z]+|#.*?#|\$))"); result = std::regex_replace(result, pattern, ""); return write_string_overwrite(data, len, result); } void ULJS00339(hook_stack *stack, HookParam *hp, uintptr_t *data, uintptr_t *split, size_t *len) { auto a2 = PPSSPP::emu_arg(stack)[0]; auto vm = *(DWORD *)(a2 + (0x28)); vm = *(DWORD *)PPSSPP::emu_addr(stack, vm); vm = *(DWORD *)PPSSPP::emu_addr(stack, vm + 8); uintptr_t address = PPSSPP::emu_addr(stack, vm); auto len1 = *(DWORD *)(address + 4); auto p = address + 0x20; if (len1 > 4 && *(WORD *)(p + 2) == 0) { auto p1 = *(DWORD *)(address + 8); vm = *(DWORD *)PPSSPP::emu_addr(stack, vm); vm = *(DWORD *)PPSSPP::emu_addr(stack, vm + 0xC); p = PPSSPP::emu_addr(stack, vm); } static int fm = 0; static std::string pre; auto b = fm; auto s = [](uintptr_t address) { auto frist = *(WORD *)address; auto lo = frist & 0xFF; // uppercase: 41->5A auto hi = frist >> 8; if (hi == 0 && (lo > 0x5a || lo < 0x41) /* T,W,? */) { return std::string(); } std::string s; int i = 0; WORD c; char buf[3] = {0}; while ((c = *(WORD *)(address + i)) != 0) { // reverse endian: ShiftJIS BE => LE buf[0] = c >> 8; buf[1] = c & 0xFF; if (c == 0x815e /* / */) { s += ' '; // single line } else if (buf[0] == 0) { //// UTF16 LE turned BE: 5700=>0057, 3100, 3500 //// 4e00 6d00=>PLAYER // do nothing if (buf[1] == 0x4e) { s += "PLAYER"; fm++; } } else { s += buf; } i += 2; } return s; }(p); if (b > 0) { fm--; return; } if (s == pre) return; pre = s; write_string_new(data, len, s); } bool NPJH50909_filter(void *data, size_t *len, HookParam *hp) { std::string result = std::string((char *)data, *len); auto ws = StringToWideString(result, 932).value(); // Remove single line markers ws = std::regex_replace(ws, std::wregex(L"(\\%N)+"), L" "); // Remove scale marker ws = std::regex_replace(ws, std::wregex(L"\\%\\@\\%\\d+"), L""); // Reformat name std::wsmatch match; if (std::regex_search(ws, match, std::wregex(L"(^[^「]+)「"))) { std::wstring name = match[1].str(); ws = std::regex_replace(ws, std::wregex(L"^[^「]+"), L""); ws = name + L"\n" + ws; } return write_string_overwrite(data, len, WideStringToString(ws, 932)); } bool ULJM06119_filter(void *data, size_t *len, HookParam *hp) { std::string s = std::string((char *)data, *len); std::regex pattern(R"(/\[[^\]]+./g)"); s = std::regex_replace(s, pattern, ""); std::regex tagPattern(R"(/\\k|\\x|%C|%B)"); s = std::regex_replace(s, tagPattern, ""); std::regex colorPattern(R"(/\%\d+\#[0-9a-fA-F]*\;)"); s = std::regex_replace(s, colorPattern, ""); std::regex newlinePattern(R"(/\n+)"); s = std::regex_replace(s, newlinePattern, " "); return write_string_overwrite(data, len, s); } bool ULJM06036_filter(void *data, size_t *len, HookParam *hp) { std::wstring result = std::wstring((wchar_t *)data, *len / 2); std::wregex pattern(LR"(]+).>)"); result = std::regex_replace(result, pattern, L"$2"); std::wregex tagPattern(LR"(<[A-Z]+>)"); result = std::regex_replace(result, tagPattern, L""); return write_string_overwrite(data, len, result); } namespace Corda { std::string readBinaryString(uintptr_t address, bool *haveName) { *haveName = false; if ((*(WORD *)address & 0xF0FF) == 0x801b) { *haveName = true; address = address + 2; // (1) } std::string s; int i = 0; uint8_t c; while ((c = *(uint8_t *)(address + i)) != 0) { if (c == 0x1b) { if (*haveName) return s; // (1) skip junk after name c = *(uint8_t *)(address + (i + 1)); if (c == 0x7f) i += 5; else i += 2; } else if (c == 0x0a) { s += '\n'; i += 1; } else if (c == 0x20) { s += ' '; i += 1; } else { auto len = 1 + (IsDBCSLeadByteEx(932, *(BYTE *)(address + i))); s += std::string((char *)(address + i), len); i += len; // encoder.encode(c).byteLength; } } return s; } } void ULJM05428(hook_stack *stack, HookParam *hp, uintptr_t *data, uintptr_t *split, size_t *len) { auto address = PPSSPP::emu_arg(stack)[1]; bool haveNamve; auto s = Corda::readBinaryString(address, &haveNamve); *split = haveNamve; write_string_new(data, len, s); } void ULJM05054(hook_stack *stack, HookParam *hp, uintptr_t *data, uintptr_t *split, size_t *len) { if (hp->emu_addr != 0x886162c) { auto addr = PPSSPP::emu_arg(stack)[0] + 0x3c; *data = addr; *len = strlen((char *)addr); return; } auto address = PPSSPP::emu_arg(stack)[1]; bool haveNamve; auto s = Corda::readBinaryString(address, &haveNamve); *split = haveNamve; write_string_new(data, len, s); } bool ULJM05943F(void *data, size_t *len, HookParam *hp) { auto s = std::string((char *)data, *len); strReplace(s, "#n", ""); s = std::regex_replace(s, std::regex("#[A-Za-z]+\\[(\\d*\\.)?\\d+\\]+"), ""); return write_string_overwrite(data, len, s); } bool FULJM05603(LPVOID data, size_t *size, HookParam *) { auto text = reinterpret_cast(data); auto len = reinterpret_cast(size); StringCharReplacer(text, len, "%N", 2, ' '); StringFilter(text, len, "%K", 2); StringFilter(text, len, "%P", 2); return true; } namespace NPJH50530 { std::string current; bool T(LPVOID data, size_t *size, HookParam *) { current = std::string((char *)data, *size); return true; } bool N(LPVOID data, size_t *size, HookParam *) { auto current1 = std::string((char *)data, *size); return current != current1; } } bool FNPJH50243(LPVOID data, size_t *size, HookParam *) { auto s = std::wstring((wchar_t *)data, *size / 2); s = std::regex_replace(s, std::wregex(LR"(<(.*?)\|(.*?)>)"), L"$1"); return write_string_overwrite(data, size, s); } bool FNPJH50459(void *data, size_t *len, HookParam *hp) { auto s = std::string((char *)data, *len); s = std::regex_replace(s, std::regex(R"(#SCL\((.*?)\)(.*?)#ECL)"), "$2"); strReplace(s, "\n\r\n", "\n"); return write_string_overwrite(data, len, s); } bool FNPJH50127(void *data, size_t *len, HookParam *hp) { StringCharReplacer((char *)data, len, "\\n", 2, '\n'); return true; } bool ULJM06145(void *data, size_t *len, HookParam *hp) { auto s = std::string((char *)data, *len); s = std::regex_replace(s, std::regex(R"(#Ruby\[(.*?),(.*?)\])"), "$1"); s = std::regex_replace(s, std::regex("#[A-Za-z]+\\[(\\d*\\.)?\\d+\\]+"), ""); strReplace(s, "#n", ""); strReplace(s, "\x84\xbd", "!?"); return write_string_overwrite(data, len, s); } bool FULJM05690(void *data, size_t *len, HookParam *hp) { auto s = std::string((char *)data, *len); s = std::regex_replace(s, std::regex(R"(#Kana\[(.*?),(.*?)\])"), "$1"); strReplace(s, "#n", ""); return write_string_overwrite(data, len, s); } bool FULJM05889(LPVOID data, size_t *size, HookParam *) { auto text = reinterpret_cast(data); auto len = reinterpret_cast(size); for (size_t i = 0; i < *len;) { if (IsDBCSLeadByteEx(932, (text[i]))) { i += 2; continue; } if (text[i] == '^') text[i] = '\n'; i += 1; } return true; } bool NPJH50619F(void *data, size_t *len, HookParam *hp) { auto s = std::string((char *)data, *len); std::regex pattern1("[\\r\\n]+"); std::string replacement1 = ""; std::string result1 = std::regex_replace(s, pattern1, replacement1); std::regex pattern2("^(.*?)\\)+"); std::string replacement2 = ""; std::string result2 = std::regex_replace(result1, pattern2, replacement2); std::regex pattern3("#ECL+"); std::string replacement3 = ""; std::string result3 = std::regex_replace(result2, pattern3, replacement3); std::regex pattern4("(#.+?\\))+"); std::string replacement4 = ""; std::string result4 = std::regex_replace(result3, pattern4, replacement4); return write_string_overwrite(data, len, result4); } bool NPJH50505F(void *data, size_t *len, HookParam *hp) { auto s = std::string((char *)data, *len); std::regex pattern2("#RUBS(#[A-Z0-9]+)*[^#]+"); std::string replacement2 = ""; std::string result2 = std::regex_replace(s, pattern2, replacement2); std::regex pattern3("#FAMILY"); std::string replacement3 = "$FAMILY"; std::string result3 = std::regex_replace(result2, pattern3, replacement3); std::regex pattern4("#GIVE"); std::string replacement4 = "$GIVE"; std::string result4 = std::regex_replace(result3, pattern4, replacement4); std::regex pattern5("(#[A-Z0-9\\-]+)+"); std::string replacement5 = ""; std::string result5 = std::regex_replace(result4, pattern5, replacement5); std::regex pattern6("\\n+"); std::string replacement6 = " "; std::string result6 = std::regex_replace(result5, pattern6, replacement6); return write_string_overwrite(data, len, result6); } void QNPJH50909(hook_stack *stack, HookParam *hp, uintptr_t *data, uintptr_t *split, size_t *len) { uintptr_t addr = PPSSPP::emu_addr(stack, 0x08975110); *data = addr + 0x20; *len = *(DWORD *)(addr + 0x14) * 2; if (0x6e87 == *(WORD *)*data) *len = 0; if (0x000a == *(WORD *)*data) *len = 0; } std::unordered_map emfunctionhooks = { // Shinigami to Shoujo {0x883bf34, {0, 1, 0, 0, ULJS00403_filter, "ULJS00403"}}, // Amagami {0x0886775c, {0, 0, 0, ULJS00339, 0, "ULJS00339"}}, // String.length() // Sekai de Ichiban Dame na Koi {0x8814adc, {0, 0, 0, 0, NPJH50909_filter, "ULJM05878"}}, // name + dialouge {0x8850b2c, {0, 0, 0, 0, NPJH50909_filter, "ULJM05878"}}, // onscreen toast // Dunamis15 {0x0891D72C, {CODEC_UTF8, 0, 0, 0, ULJM06119_filter, "ULJM06119"}}, // Princess Evangile Portable {0x88506d0, {CODEC_UTF16, 2, 0, 0, ULJM06036_filter, "ULJM06036"}}, // [0x88506d0(2)...0x088507C0(?)] // name text text (line doubled) // Kin'iro no Corda 2f {0x89b59dc, {0, 0, 0, ULJM05428, 0, "ULJM05428"}}, // Kin'iro no Corda {0x886162c, {0, 0, 0, ULJM05054, 0, "ULJM05054"}}, // dialogue: 0x886162c (x1), 0x889d5fc-0x889d520(a2) fullLine {0x8899e90, {0, 0, 0, ULJM05054, 0, "ULJM05054"}}, // name 0x88da57c, 0x8899ca4 (x0, oneTime), 0x8899e90 // Sol Trigger {0x8952cfc, {CODEC_UTF8, 0, 0, 0, NPJH50619F, "NPJH50619"}}, // dialog {0x884aad4, {CODEC_UTF8, 0, 0, 0, NPJH50619F, "NPJH50619"}}, // description {0x882e1b0, {CODEC_UTF8, 0, 0, 0, NPJH50619F, "NPJH50619"}}, // system {0x88bb108, {CODEC_UTF8, 2, 0, 0, NPJH50619F, "NPJH50619"}}, // battle tutorial {0x89526a0, {CODEC_UTF8, 0, 0, 0, NPJH50619F, "NPJH50619"}}, // battle info {0x88bcef8, {CODEC_UTF8, 1, 0, 0, NPJH50619F, "NPJH50619"}}, // battle talk // Fate/EXTRA CCC {0x8958490, {0, 0, 0, 0, NPJH50505F, "NPJH50505"}}, // Kamigami no Asobi InFinite {0x088630f8, {0, 0, 0, QNPJH50909, 0, "NPJH50909"}}, // text, choice (debounce trailing 400ms), TODO: better hook {0x0887813c, {0, 3, 4, 0, 0, "NPJH50909"}}, // Question YN // Gekka Ryouran Romance {0x88eeba4, {0, 0, 0, 0, ULJM05943F, "ULJM05943"}}, // a0 - monologue text {0x8875e0c, {0, 1, 6, 0, ULJM05943F, "ULJM05943"}}, // a1 - dialogue text // My Merry May with be {0x886F014, {0, 3, 0, 0, FULJM05603, "ULJM05603"}}, // Corpse Party -The Anthology- Sachiko no Ren'ai Yuugi ♥ Hysteric Birthday 2U - Regular Edition {0x88517C8, {0, 1, 0, 0, FULJM05603, "ULJM06114"}}, // Himawari_no_Kyoukai_to_Nagai_Natsuyasumi_Extra_Vacation_JPN_PSP-MOEMOE {0x881c444, {FULL_STRING, 0, 0, 0, 0, "ULJM06321"}}, // name+text,sjit,FULL_STRING to split name and text // ましろ色シンフォニー *mutsu-no-hana {0x8868AB8, {0, 0, 0, 0, FULJM05889, "ULJM05889"}}, // シャイニング・ブレイド {0x8AA3B70, {0, 0xC, 0, 0, NPJH50530::T, "NPJH50530"}}, // text only {0x884DB44, {0, 1, 0, 0, NPJH50530::N, "NPJH50530"}}, // text+name // ティアーズ・トゥ・ティアラ 外伝 アヴァロンの謎 PORTABLE {0x890A4BC, {CODEC_UTF16, 1, 0, 0, FNPJH50243, "NPJH50243"}}, // 薔薇ノ木ニ薔薇ノ花咲ク {0x881E560, {0, 1, 0, 0, 0, "ULJM05802"}}, // D.C. Girl's Symphony Pocket ~ダ・カーポ~ ガールズシンフォニーポケット {0x883C77C, {0, 0, 0, 0, FULJM05690, "ULJM05690"}}, // Ever17 -the out of infinity- Premium Edition {0x881AD64, {0, 0xd, 0, 0, 0, "ULJM05437"}}, // 12時の鐘とシンデレラ~Halloween Wedding~ {0x882A650, {0, 1, 0, 0, 0, "ULJM06023"}}, // 0時の鐘とシンデレラ~Halloween Wedding~ (instance: 2) {0x8855CA0, {0, 1, 0, 0, 0, "ULJM06272"}}, // セブンスドラゴン2020 {0x88847A0, {CODEC_UTF8, 1, 0, 0, FNPJH50459, "NPJH50459"}}, // セブンスドラゴン2020-Ⅱ {0x8889CCC, {CODEC_UTF8, 1, 0, 0, FNPJH50459, "NPJH50716"}}, // 会有两三条后续文本都被一次性提取到。 // マイナスエイト {0x88DC218, {0, 0, 0, 0, FULJM05690, "ULJM06341"}}, // Tokimeki Memorial 4 {0x899a510, {0, 2, 0, 0, FNPJH50127, "NPJH50127"}}, {0x88719dc, {0, 1, 0, 0, FNPJH50127, "NPJH50127"}}, // オメルタ~沈黙の掟~ THE LEGACY {0x88861C8, {0, 3, 0, 0, 0, "ULJM06393"}}, // L.G.S~新説 封神演義~ {0x888A358, {0, 0, 0, 0, ULJM05943F, "ULJM06131"}}, // NAME+TEXT {0x88DB214, {0, 0, 0, 0, ULJM05943F, "ULJM06131"}}, // TEXT {0x889E970, {0, 0, 0, 0, ULJM05943F, "ULJM06131"}}, // NAME // 源狼 GENROH {0x8940DA8, {0, 1, 0, 0, ULJM06145, "ULJM06145"}}, // TEXT }; }