/*This file is part of FFB Arcade Plugin. FFB Arcade Plugin is free software : you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. FFB Arcade Plugin is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with FFB Arcade Plugin.If not, see < https://www.gnu.org/licenses/>. */ #include #include #include "M2Emulator.h" #include "math.h" #include "SDL.h" //Config Settings extern wchar_t* settingsFilename; extern int DeviceGUID; extern int configFeedbackLength; extern int configGameId; extern int configMinForce; extern int configMaxForce; extern int PowerMode; extern int EnableRumble; extern int ReverseRumble; extern int configFeedbackLength; extern int configAlternativeMinForceLeft; extern int configAlternativeMaxForceLeft; extern int configAlternativeMinForceRight; extern int configAlternativeMaxForceRight; extern int EnableForceSpringEffect; extern int ForceSpringStrength; static int DaytonaAIMultiplayerHack = GetPrivateProfileInt(TEXT("Settings"), TEXT("DaytonaAIMultiplayerHack"), 0, settingsFilename); static int DaytonaForcePanoramicAttract = GetPrivateProfileInt(TEXT("Settings"), TEXT("DaytonaForcePanoramicAttract"), 0, settingsFilename); static int EnableOutputs = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableOutputs"), 0, settingsFilename); static int configMinForceDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("MinForceDaytona"), 0, settingsFilename); static int configMaxForceDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("MaxForceDaytona"), 100, settingsFilename); static int configAlternativeMinForceLeftDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceLeftDaytona"), 0, settingsFilename); static int configAlternativeMaxForceLeftDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceLeftDaytona"), 100, settingsFilename); static int configAlternativeMinForceRightDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceRightDaytona"), 0, settingsFilename); static int configAlternativeMaxForceRightDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceRightDaytona"), 100, settingsFilename); static int configFeedbackLengthDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLengthDaytona"), 120, settingsFilename); static int PowerModeDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("PowerModeDaytona"), 0, settingsFilename); static int EnableForceSpringEffectDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableForceSpringEffectDaytona"), 0, settingsFilename); static int ForceSpringStrengthDaytona = GetPrivateProfileInt(TEXT("Settings"), TEXT("ForceSpringStrengthDaytona"), 0, settingsFilename); static int configMinForceSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("MinForceSRally"), 0, settingsFilename); static int configMaxForceSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("MaxForceSRally"), 100, settingsFilename); static int configAlternativeMinForceLeftSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceLeftSRally"), 0, settingsFilename); static int configAlternativeMaxForceLeftSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceLeftSRally"), 100, settingsFilename); static int configAlternativeMinForceRightSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceRightSRally"), 0, settingsFilename); static int configAlternativeMaxForceRightSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceRightSRally"), 100, settingsFilename); static int configFeedbackLengthSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLengthSRally"), 120, settingsFilename); static int PowerModeSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("PowerModeSRally"), 0, settingsFilename); static int EnableForceSpringEffectSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableForceSpringEffectSRally"), 0, settingsFilename); static int ForceSpringStrengthSRally = GetPrivateProfileInt(TEXT("Settings"), TEXT("ForceSpringStrengthSRally"), 0, settingsFilename); static int configMinForceIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("MinForceIndy500"), 0, settingsFilename); static int configMaxForceIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("MaxForceIndy500"), 100, settingsFilename); static int configAlternativeMinForceLeftIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceLeftIndy500"), 0, settingsFilename); static int configAlternativeMaxForceLeftIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceLeftIndy500"), 100, settingsFilename); static int configAlternativeMinForceRightIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceRightIndy500"), 0, settingsFilename); static int configAlternativeMaxForceRightIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceRightIndy500"), 100, settingsFilename); static int configFeedbackLengthIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLengthIndy500"), 120, settingsFilename); static int PowerModeIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("PowerModeIndy500"), 0, settingsFilename); static int EnableForceSpringEffectIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableForceSpringEffectIndy500"), 0, settingsFilename); static int ForceSpringStrengthIndy500 = GetPrivateProfileInt(TEXT("Settings"), TEXT("ForceSpringStrengthIndy500"), 0, settingsFilename); static int configMinForceSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("MinForceSTCC"), 0, settingsFilename); static int configMaxForceSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("MaxForceSTCC"), 100, settingsFilename); static int configAlternativeMinForceLeftSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceLeftSTCC"), 0, settingsFilename); static int configAlternativeMaxForceLeftSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceLeftSTCC"), 100, settingsFilename); static int configAlternativeMinForceRightSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceRightSTCC"), 0, settingsFilename); static int configAlternativeMaxForceRightSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceRightSTCC"), 100, settingsFilename); static int configFeedbackLengthSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLengthSTCC"), 120, settingsFilename); static int PowerModeSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("PowerModeSTCC"), 0, settingsFilename); static int EnableForceSpringEffectSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableForceSpringEffectSTCC"), 0, settingsFilename); static int ForceSpringStrengthSTCC = GetPrivateProfileInt(TEXT("Settings"), TEXT("ForceSpringStrengthSTCC"), 0, settingsFilename); static int configMinForceOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("MinForceOverRev"), 0, settingsFilename); static int configMaxForceOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("MaxForceOverRev"), 100, settingsFilename); static int configAlternativeMinForceLeftOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceLeftOverRev"), 0, settingsFilename); static int configAlternativeMaxForceLeftOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceLeftOverRev"), 100, settingsFilename); static int configAlternativeMinForceRightOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceRightOverRev"), 0, settingsFilename); static int configAlternativeMaxForceRightOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceRightOverRev"), 100, settingsFilename); static int configFeedbackLengthOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLengthOverRev"), 120, settingsFilename); static int PowerModeOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("PowerModeOverRev"), 0, settingsFilename); static int EnableForceSpringEffectOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableForceSpringEffectOverRev"), 0, settingsFilename); static int ForceSpringStrengthOverRev = GetPrivateProfileInt(TEXT("Settings"), TEXT("ForceSpringStrengthOverRev"), 0, settingsFilename); static int configMinForceSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("MinForceSuperGT"), 0, settingsFilename); static int configMaxForceSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("MaxForceSuperGT"), 100, settingsFilename); static int configAlternativeMinForceLeftSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceLeftSuperGT"), 0, settingsFilename); static int configAlternativeMaxForceLeftSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceLeftSuperGT"), 100, settingsFilename); static int configAlternativeMinForceRightSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMinForceRightSuperGT"), 0, settingsFilename); static int configAlternativeMaxForceRightSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("AlternativeMaxForceRightSuperGT"), 100, settingsFilename); static int configFeedbackLengthSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLengthSuperGT"), 120, settingsFilename); static int PowerModeSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("PowerModeSuperGT"), 0, settingsFilename); static int EnableForceSpringEffectSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("EnableForceSpringEffectSuperGT"), 0, settingsFilename); static int ForceSpringStrengthSuperGT = GetPrivateProfileInt(TEXT("Settings"), TEXT("ForceSpringStrengthSuperGT"), 0, settingsFilename); static bool init = false; static bool CustomStrengthInit = false; static bool outputinit = false; static UINT8 ff; static bool __stdcall ExitHook(UINT uExitCode) { ExitProcess(0); return 0; } static bool Hook(void * toHook, void * ourFunct, int len) { if (len < 5) { return false; } DWORD curProtection; VirtualProtect(toHook, len, PAGE_EXECUTE_READWRITE, &curProtection); memset(toHook, 0x90, len); DWORD relativeAddress = ((DWORD)ourFunct - (DWORD)toHook) - 5; *(BYTE*)toHook = 0xE9; *(DWORD*)((DWORD)toHook + 1) = relativeAddress; DWORD temp; VirtualProtect(toHook, len, curProtection, &temp); return true; } static DWORD jmpBackAddy; void M2Emulator::FFBLoop(EffectConstants * constants, Helpers * helpers, EffectTriggers * triggers) { HWND hWnd1 = FindWindowA(0, ("Sega Rally Championship")); HWND hWnd2 = FindWindowA(0, ("Daytona USA")); HWND hWnd3 = FindWindowA(0, ("Indianapolis 500 (Rev A, Deluxe)")); HWND hWnd4 = FindWindowA(0, ("Sega Touring Car Championship (Rev A)")); HWND hWnd5 = FindWindowA(0, ("Over Rev")); HWND hWnd6 = FindWindowA(0, ("Super GT 24h")); HWND hWnd7 = FindWindowA(0, ("Daytona USA '93 Edition")); HWND hWnd8 = FindWindowA(0, ("Daytona USA (Saturn Ads)")); HWND hWnd9 = FindWindowA(0, ("Daytona USA Special Edition")); HWND hWnd10 = FindWindowA(0, ("Daytona USA Turbo")); HWND hWnd11 = FindWindowA(0, ("Daytona USA Turbo (Rev A)")); HWND hWnd12 = FindWindowA(0, ("Daytona USA: GTX 2004")); HWND hWnd13 = FindWindowA(0, ("Daytona USA: To The Maxx")); HWND hWnd14 = FindWindowA(0, ("Sega Rally Championship (Rev B)")); HWND hWnd15 = FindWindowA(0, ("Sega Rally Pro Drivin'")); HWND hWnd16 = FindWindowA(0, ("Indianapolis 500 (Rev A, Twin, Newer rev)")); HWND hWnd17 = FindWindowA(0, ("Indianapolis 500 (Rev A, Twin, Older rev)")); HWND hWnd18 = FindWindowA(0, ("Sega Touring Car Championship")); HWND hWnd19 = FindWindowA(0, ("Sega Touring Car Championship (Rev B)")); HWND hWnd20 = FindWindowA(0, ("Over Rev (Model 2B)")); if (EnableForceSpringEffect == 1) { triggers->Springi(ForceSpringStrength / 100.0); } if (!outputinit) { if (EnableOutputs == 1) { HMODULE lib = LoadLibraryA("OutputBlaster.dll"); outputinit = true; } } HMODULE hMod = GetModuleHandleA("KERNEL32.dll"); if (hMod) { if (!init) { int hookLength = 6; DWORD hookAddress = (DWORD)GetProcAddress(GetModuleHandle(L"KERNEL32.dll"), "ExitProcess"); if (hookAddress) { jmpBackAddy = hookAddress + hookLength; Hook((void*)hookAddress, ExitHook, hookLength); init = true; } } } if ((hWnd2 > NULL) || (hWnd3 > NULL) || (hWnd4 > NULL) || (hWnd5 > NULL) || (hWnd6 > NULL) || (hWnd7 > NULL) || (hWnd8 > NULL) || (hWnd9 > NULL) || (hWnd10 > NULL) || (hWnd11 > NULL) || (hWnd12 > NULL) || (hWnd13 > NULL) ||(hWnd16 > NULL) || (hWnd17 > NULL) || (hWnd18 > NULL) || (hWnd19 > NULL) || (hWnd20 > NULL)) { std::string ffs = std::to_string(ff); helpers->log((char*)ffs.c_str()); helpers->log("got value: "); if ((ff > 0x09) && (ff < 0x18)) { //Spring double percentForce = (ff - 15) / 8.0; double percentLength = 100; triggers->Spring(percentForce); } if ((ff > 0x1F) && (ff < 0x28)) { //Clutch double percentForce = (ff - 31) / 8.0; double percentLength = 100; triggers->Friction(percentForce); } if ((ff > 0x2F) && (ff < 0x3D)) { //Centering double percentForce = (ff - 47) / 13.0; double percentLength = 100; triggers->Spring(percentForce); } if ((ff > 0x3F) && (ff < 0x48)) { //Uncentering double percentForce = (ff - 63) / 8.0; double percentLength = 100; triggers->Sine(40, 0, percentForce); triggers->Rumble(percentForce, percentForce, percentLength); } if ((ff > 0x4F) && (ff < 0x58)) { //Roll Left double percentForce = (ff - 79) / 8.0; double percentLength = 100; triggers->Rumble(0, percentForce, percentLength); triggers->Constant(constants->DIRECTION_FROM_RIGHT, percentForce); } else if ((ff > 0x5F) && (ff < 0x68)) { //Roll Right double percentForce = (ff - 95) / 8.0; double percentLength = 100; triggers->Rumble(percentForce, 0, percentLength); triggers->Constant(constants->DIRECTION_FROM_LEFT, percentForce); } } if ((hWnd1 > NULL) || (hWnd14 > NULL) || (hWnd15 > NULL)) { if (!CustomStrengthInit) { CustomStrengthInit = true; configMinForce = configMinForceSRally; configMaxForce = configMaxForceSRally; configAlternativeMinForceLeft = configAlternativeMinForceLeftSRally; configAlternativeMaxForceLeft = configAlternativeMaxForceLeftSRally; configAlternativeMinForceRight = configAlternativeMinForceRightSRally; configAlternativeMaxForceRight = configAlternativeMaxForceRightSRally; configFeedbackLength = configFeedbackLengthSRally; PowerMode = PowerModeSRally; EnableForceSpringEffect = EnableForceSpringEffectSRally; ForceSpringStrength = ForceSpringStrengthSRally; } UINT8 ff1 = helpers->ReadByte(0x174CF4, /* isRelativeOffset*/ true); //SegaRallyChampionship std::string ffs = std::to_string(ff1); helpers->log((char*)ffs.c_str()); helpers->log("got value: "); if ((ff1 > 0xBF) && (ff1 < 0xDF)) { helpers->log("moving wheel left"); double percentForce = (ff1 - 191) / 31.0; double percentLength = 100; triggers->Rumble(0, percentForce, percentLength); triggers->Constant(constants->DIRECTION_FROM_RIGHT, percentForce); } else if ((ff1 > 0x7F) && (ff1 < 0x9F)) { helpers->log("moving wheel right"); double percentForce = (ff1 - 127) / 31.0; double percentLength = 100; triggers->Rumble(percentForce, 0, percentLength); triggers->Constant(constants->DIRECTION_FROM_LEFT, percentForce); } } if ((hWnd2 > NULL) || (hWnd7 > NULL) || (hWnd8 > NULL) || (hWnd9 > NULL) || (hWnd10 > NULL) || (hWnd11 > NULL) || (hWnd12 > NULL) || (hWnd13 > NULL)) { if (!CustomStrengthInit) { CustomStrengthInit = true; configMinForce = configMinForceDaytona; configMaxForce = configMaxForceDaytona; configAlternativeMinForceLeft = configAlternativeMinForceLeftDaytona; configAlternativeMaxForceLeft = configAlternativeMaxForceLeftDaytona; configAlternativeMinForceRight = configAlternativeMinForceRightDaytona; configAlternativeMaxForceRight = configAlternativeMaxForceRightDaytona; configFeedbackLength = configFeedbackLengthDaytona; PowerMode = PowerModeDaytona; EnableForceSpringEffect = EnableForceSpringEffectDaytona; ForceSpringStrength = ForceSpringStrengthDaytona; } if (DaytonaForcePanoramicAttract == 1) { INT_PTR Rambase = helpers->ReadIntPtr(0x1AA888, /* isRelativeOffset*/ true); INT_PTR Rambase1 = helpers->ReadIntPtr(Rambase + 0x100, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1070, 0x00, /* isRelativeOffset*/ false); } if (DaytonaAIMultiplayerHack == 1) { INT_PTR Rambase = helpers->ReadIntPtr(0x1AA888, /* isRelativeOffset*/ true); INT_PTR Rambase1 = helpers->ReadIntPtr(Rambase + 0x100, /* isRelativeOffset */ false); UINT8 gamestate = helpers->ReadByte(Rambase1 + 0x10A4, /* isRelativeOffset*/ false); UINT8 track = helpers->ReadByte(Rambase1 + 0x1460, /* isRelativeOffset*/ false); UINT8 trackselect = helpers->ReadByte(Rambase1 + 0x1468, /* isRelativeOffset*/ false); UINT8 countdown = helpers->ReadByte(Rambase1 + 0x1850, /* isRelativeOffset*/ false); UINT8 linksize = helpers->ReadByte(Rambase1 + 0x40001, /* isRelativeOffset*/ false); UINT8 linkID = helpers->ReadByte(Rambase1 + 0x40002, /* isRelativeOffset*/ false); INT_PTR gamestatetimer = helpers->ReadIntPtr(Rambase1 + 0x10A8, /* isRelativeOffset*/ false); UINT8 camhack = helpers->ReadByte(Rambase1 + 0x14A4, /* isRelativeOffset*/ false); UINT8 carsinfront = helpers->ReadByte(Rambase1 + 0x51EC, /* isRelativeOffset*/ false); UINT8 mpposition = helpers->ReadByte(Rambase1 + 0x51ED, /* isRelativeOffset*/ false); float cary = helpers->ReadFloat32(Rambase1 + 0x519C, /* isRelativeOffset */ false); float carx = helpers->ReadFloat32(Rambase1 + 0x51A4, /* isRelativeOffset */ false); UINT8 nop1 = helpers->ReadByte(0xC2130, /* isRelativeOffset*/ true); UINT8 nop2 = helpers->ReadByte(0xC2131, /* isRelativeOffset*/ true); UINT8 nop3 = helpers->ReadByte(0xC2132, /* isRelativeOffset*/ true); if (gamestate == 0x1A) { helpers->WriteByte(Rambase1 + 0x51ED, carsinfront, /* isRelativeOffset*/ false); } if (trackselect == 0x01) { helpers->WriteByte(Rambase1 + 0x1460, 0x02, /* isRelativeOffset*/ false); } else if (trackselect == 0x02) { helpers->WriteByte(Rambase1 + 0x1460, 0x01, /* isRelativeOffset*/ false); } if (linksize == 0x02) { if (linkID == 0x02) { if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x01, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { Sleep(150); helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02 || track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } } else if (linkID == 0x01) { if ((gamestate == 0x1A) & (gamestatetimer < 100)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } else if ((gamestate == 0x1A) & (gamestatetimer > 100)) { Sleep(100); helpers->WriteNop(0xC2130, true); helpers->WriteNop(0xC2131, true); helpers->WriteNop(0xC2132, true); } if ((gamestate > 0x1A)& (gamestate < 0x1A)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02 || track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteFloat32(Rambase1 + 0x519C, 0.0, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } } } else if (linksize == 0x03) { if (linkID == 0x03) { if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x01, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { Sleep(250); helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02 || track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); helpers->WriteFloat32(Rambase1 + 0x519C, 450.0, /* isRelativeOffset */ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } } else if (linkID == 0x02) { if ((gamestate == 0x1A) & (gamestatetimer < 100)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } else if ((gamestate == 0x1A) & (gamestatetimer > 100)) { Sleep(100); helpers->WriteNop(0xC2130, true); helpers->WriteNop(0xC2131, true); helpers->WriteNop(0xC2132, true); } if ((gamestate > 0x1A)& (gamestate < 0x1A)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x01, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { Sleep(150); helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02 || track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } } else if (linkID == 0x01) { if ((gamestate == 0x1A) & (gamestatetimer < 100)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } else if ((gamestate == 0x1A) & (gamestatetimer > 100)) { Sleep(100); helpers->WriteNop(0xC2130, true); helpers->WriteNop(0xC2131, true); helpers->WriteNop(0xC2132, true); } if ((gamestate > 0x1A)& (gamestate < 0x1A)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC2F195E8, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC37E0001, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } } } else if (linksize == 0x04) { if (linkID == 0x04) { if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540D00, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540D00, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540D00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x01, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { Sleep(250); helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC302CAF4, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteFloat32(Rambase1 + 0x519C, 450.0, /* isRelativeOffset */ false); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC37C0001, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } } if (linkID == 0x03) { if ((gamestate == 0x1A) & (gamestatetimer < 100)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } else if ((gamestate == 0x1A) & (gamestatetimer > 100)) { Sleep(100); helpers->WriteNop(0xC2130, true); helpers->WriteNop(0xC2131, true); helpers->WriteNop(0xC2132, true); } if ((gamestate > 0x1A)& (gamestate < 0x1A)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540D00, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540C40, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x01, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { Sleep(350); helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); helpers->WriteFloat32(Rambase1 + 0x519C, 450.0, /* isRelativeOffset */ false); Sleep(50); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC37CF3D0, /* isRelativeOffset */ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); helpers->WriteFloat32(Rambase1 + 0x519C, 450.0, /* isRelativeOffset */ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } } else if (linkID == 0x02) { if ((gamestate == 0x1A) & (gamestatetimer < 100)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } else if ((gamestate == 0x1A) & (gamestatetimer > 100)) { Sleep(100); helpers->WriteNop(0xC2130, true); helpers->WriteNop(0xC2131, true); helpers->WriteNop(0xC2132, true); } if ((gamestate > 0x1A)& (gamestate < 0x1A)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540D00, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540C80, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x01, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { Sleep(150); helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02 || track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } } else if (linkID == 0x01) { if ((gamestate == 0x1A) & (gamestatetimer < 100)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } else if ((gamestate == 0x1A) & (gamestatetimer > 100)) { Sleep(100); helpers->WriteNop(0xC2130, true); helpers->WriteNop(0xC2131, true); helpers->WriteNop(0xC2132, true); } if ((gamestate > 0x1A)& (gamestate < 0x1A)) { helpers->WriteByte(0xC2130, 0x88, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2131, 0x14, /* isRelativeOffset*/ true); helpers->WriteByte(0xC2132, 0x01, /* isRelativeOffset*/ true); } if (gamestate > 0x07) { helpers->WriteIntPtr(Rambase1 + 0x40004, 0x00540D00, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x40008, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteIntPtr(Rambase1 + 0x4000C, 0x00540CC0, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5484, 0x00, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5784, 0x02, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5A84, 0x03, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x5D84, 0x04, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6084, 0x05, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6384, 0x06, /* isRelativeOffset*/ false); helpers->WriteByte(Rambase1 + 0x6684, 0x07, /* isRelativeOffset*/ false); } if ((gamestatetimer > 4294964133)& (gamestate == 0x12)) { helpers->WriteIntPtr(Rambase1 + 0x10A8, 0x3B6, /* isRelativeOffset*/ false); } if ((gamestate == 0x16) & (countdown == 0x00) & (track == 0x00)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 helpers->WriteByte(Rambase1 + 0x1850, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x01)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC2F195E8, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } else if ((gamestate == 0x14) & (trackselect == 0x00) & (track == 0x02)) { helpers->WriteByte(Rambase1 + 0x40000, 0x99, /* isRelativeOffset*/ false); // change to 99 Sleep(50); helpers->WriteByte(Rambase1 + 0x10A4, 0x13, /* isRelativeOffset*/ false); // restart race Sleep(50); helpers->WriteByte(Rambase1 + 0x40000, 0x01, /* isRelativeOffset*/ false); // change back to 1 Sleep(50); helpers->WriteIntPtr(Rambase1 + 0x51A4, 0xC37E0001, /* isRelativeOffset */ false); helpers->WriteByte(Rambase1 + 0x1468, 0x01, /* isRelativeOffset*/ false); } } } } ff = helpers->ReadByte(0x0057285B, /* isRelativeOffset*/ false); //DaytonaUSA } if ((hWnd3 > NULL) || (hWnd16 > NULL) || (hWnd17 > NULL)) { if (!CustomStrengthInit) { CustomStrengthInit = true; configMinForce = configMinForceIndy500; configMaxForce = configMaxForceIndy500; configAlternativeMinForceLeft = configAlternativeMinForceLeftIndy500; configAlternativeMaxForceLeft = configAlternativeMaxForceLeftIndy500; configAlternativeMinForceRight = configAlternativeMinForceRightIndy500; configAlternativeMaxForceRight = configAlternativeMaxForceRightIndy500; configFeedbackLength = configFeedbackLengthIndy500; PowerMode = PowerModeIndy500; EnableForceSpringEffect = EnableForceSpringEffectIndy500; ForceSpringStrength = ForceSpringStrengthIndy500; } ff = helpers->ReadByte(0x17285B, /* isRelativeOffset*/ true); //Indy500 } if ((hWnd4 > NULL) || (hWnd18 > NULL) || (hWnd19 > NULL)) { if (!CustomStrengthInit) { CustomStrengthInit = true; configMinForce = configMinForceSTCC; configMaxForce = configMaxForceSTCC; configAlternativeMinForceLeft = configAlternativeMinForceLeftSTCC; configAlternativeMaxForceLeft = configAlternativeMaxForceLeftSTCC; configAlternativeMinForceRight = configAlternativeMinForceRightSTCC; configAlternativeMaxForceRight = configAlternativeMaxForceRightSTCC; configFeedbackLength = configFeedbackLengthSTCC; PowerMode = PowerModeSTCC; EnableForceSpringEffect = EnableForceSpringEffectSTCC; ForceSpringStrength = ForceSpringStrengthSTCC; } ff = helpers->ReadByte(0x17285B, /* isRelativeOffset*/ true); //Sega Touring Car Championship } if ((hWnd5 > NULL) || (hWnd20 > NULL)) { if (!CustomStrengthInit) { CustomStrengthInit = true; configMinForce = configMinForceOverRev; configMaxForce = configMaxForceOverRev; configAlternativeMinForceLeft = configAlternativeMinForceLeftOverRev; configAlternativeMaxForceLeft = configAlternativeMaxForceLeftOverRev; configAlternativeMinForceRight = configAlternativeMinForceRightOverRev; configAlternativeMaxForceRight = configAlternativeMaxForceRightOverRev; configFeedbackLength = configFeedbackLengthOverRev; PowerMode = PowerModeOverRev; EnableForceSpringEffect = EnableForceSpringEffectOverRev; ForceSpringStrength = ForceSpringStrengthOverRev; } ff = helpers->ReadByte(0x17285B, /* isRelativeOffset*/ true); //OverRev } if (hWnd6 > NULL) { if (!CustomStrengthInit) { CustomStrengthInit = true; configMinForce = configMinForceSuperGT; configMaxForce = configMaxForceSuperGT; configAlternativeMinForceLeft = configAlternativeMinForceLeftSuperGT; configAlternativeMaxForceLeft = configAlternativeMaxForceLeftSuperGT; configAlternativeMinForceRight = configAlternativeMinForceRightSuperGT; configAlternativeMaxForceRight = configAlternativeMaxForceRightSuperGT; configFeedbackLength = configFeedbackLengthSuperGT; PowerMode = PowerModeSuperGT; EnableForceSpringEffect = EnableForceSpringEffectSuperGT; ForceSpringStrength = ForceSpringStrengthSuperGT; } ff = helpers->ReadByte(0x17285B, /* isRelativeOffset*/ true); //Super GT 24h } }