2024-04-02 00:27:08 +08:00

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#include<queue>
#include"emujitarg.hpp"
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);
// Remove single line markers
result = std::regex_replace(result, std::regex("(\\%N)+"), " ");
// Remove scale marker
result = std::regex_replace(result, std::regex("\\%\\@\\%\\d+"), "");
// Reformat name
std::smatch match;
if (std::regex_search(result, match, std::regex("(^[^「]+)「"))) {
std::string name = match[1].str();
result = std::regex_replace(result, std::regex("^[^「]+"), "");
result = name + "\n" + result;
}
return write_string_overwrite(data,len,result);
}
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"(<R([^\/]+).([^>]+).>)");
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);
std::regex pattern1("#n+");
std::string replacement1 = " ";
std::string result1 = std::regex_replace(s, pattern1, replacement1);
std::regex pattern2("#[A-Za-z]+\\[(\\d*\\.)?\\d+\\]+");
std::string replacement2 = "";
std::string result2 = std::regex_replace(result1, pattern2, replacement2);
return write_string_overwrite(data,len,result2);
}
bool FULJM05603(LPVOID data, size_t* size, HookParam*)
{
auto text = reinterpret_cast<LPSTR>(data);
auto len = reinterpret_cast<size_t*>(size);
StringCharReplacer(text, len, "%N", 2, ' ');
StringFilter(text, len, "%K", 2);
StringFilter(text, len, "%P", 2);
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);
auto adr=addr+0x20;
auto len1=*(DWORD*)(addr+0x14)*2;
*data=adr+len1-2;*len=2;
if(0x6e87==*(WORD*)*data)*len=0;
if(0x000a==*(WORD*)*data)*len=0;
}
namespace ppsspp{
std::unordered_map<uintptr_t,emfuncinfo>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"}},
};
}