/*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 "LGI.h" #include "SDL.h" #include extern int joystick_index1; extern int joystick_index2; extern SDL_Joystick* GameController2; extern SDL_Haptic* ControllerHaptic2; extern SDL_Haptic* haptic2; static bool init = false; void LGI::FFBLoop(EffectConstants *constants, Helpers *helpers, EffectTriggers* triggers) { int ff = helpers->ReadIntPtr(0x0063BF5C, /* isRelativeOffset */ true); UINT8 ff1 = helpers->ReadByte(ff + 0x44, /* isRelativeOffset */ false); INT_PTR health1p1 = helpers->ReadIntPtr(0x00820024, /* isRelativeOffset*/ true); INT_PTR health1p2 = helpers->ReadIntPtr(health1p1 + 0x4, /* isRelativeOffset */ false); INT_PTR health1p3 = helpers->ReadIntPtr(health1p2 + 0x58, /* isRelativeOffset */ false); INT_PTR health2p3 = helpers->ReadIntPtr(health1p2 + 0x5C, /* isRelativeOffset */ false); float health1p = helpers->ReadFloat32(health1p3 + 0x14, /* isRelativeOffset */ false); //1p health float health2p = helpers->ReadFloat32(health2p3 + 0x14, /* isRelativeOffset */ false); //2p health helpers->log("got value: "); std::string ffs = std::to_string(ff1); helpers->log((char *)ffs.c_str()); float static oldFloat1 = 0.0; float static oldFloat2 = 0.0; float newFloat1 = health1p; float newFloat2 = health2p; wchar_t *settingsFilename = TEXT(".\\FFBPlugin.ini"); int configFeedbackLength = GetPrivateProfileInt(TEXT("Settings"), TEXT("FeedbackLength"), 120, settingsFilename); int HowtoRumbleKnockEffect = GetPrivateProfileInt(TEXT("Settings"), TEXT("HowtoRumbleKnockEffect"), 0, settingsFilename); int HowtoRumbleMotorEffect = GetPrivateProfileInt(TEXT("Settings"), TEXT("HowtoRumbleMotorEffect"), 0, settingsFilename); int HowtoRumbleHealthEffect = GetPrivateProfileInt(TEXT("Settings"), TEXT("HowtoRumbleHealthEffect"), 0, settingsFilename); int Knock1pStrength = GetPrivateProfileInt(TEXT("Settings"), TEXT("Knock1pStrength"), 0, settingsFilename); int Motor1pStrength = GetPrivateProfileInt(TEXT("Settings"), TEXT("Motor1pStrength"), 0, settingsFilename); int Health1pStrength = GetPrivateProfileInt(TEXT("Settings"), TEXT("Health1pStrength"), 0, settingsFilename); int Knock2pStrength = GetPrivateProfileInt(TEXT("Settings"), TEXT("Knock2pStrength"), 0, settingsFilename); int Motor2pStrength = GetPrivateProfileInt(TEXT("Settings"), TEXT("Motor2pStrength"), 0, settingsFilename); int Health2pStrength = GetPrivateProfileInt(TEXT("Settings"), TEXT("Health2pStrength"), 0, settingsFilename); if (!init) { for (int i = 0; i < SDL_NumJoysticks(); i++) { wchar_t* deviceGUIDString2 = new wchar_t[256]; int Device2GUID = GetPrivateProfileString(TEXT("Settings"), TEXT("Device2GUID"), NULL, deviceGUIDString2, 256, settingsFilename); char joystick_guid[256]; sprintf(joystick_guid, "%S", deviceGUIDString2); SDL_JoystickGUID guid, dev_guid; int numJoysticks = SDL_NumJoysticks(); std::string njs = std::to_string(numJoysticks); ((char)njs.c_str()); for (int i = 0; i < SDL_NumJoysticks(); i++) { extern int joystick1Index; if (i == joystick1Index) { continue; } SDL_Joystick* js2 = SDL_JoystickOpen(i); joystick_index2 = SDL_JoystickInstanceID(js2); SDL_JoystickGUID guid = SDL_JoystickGetGUID(js2); char guid_str[1024]; SDL_JoystickGetGUIDString(guid, guid_str, sizeof(guid_str)); const char* name = SDL_JoystickName(js2); char text[256]; sprintf(text, "Joystick: %d / Name: %s / GUID: %s\n", i, name, guid_str); guid = SDL_JoystickGetGUIDFromString(joystick_guid); dev_guid = SDL_JoystickGetGUID(js2); if (!memcmp(&guid, &dev_guid, sizeof(SDL_JoystickGUID))) { GameController2 = SDL_JoystickOpen(i); ControllerHaptic2 = SDL_HapticOpenFromJoystick(GameController2); break; } SDL_JoystickClose(js2); } haptic2 = ControllerHaptic2; if ((SDL_HapticRumbleSupported(haptic2) == SDL_TRUE)) { SDL_HapticRumbleInit; SDL_HapticRumbleInit(ControllerHaptic2); } } init = true; } if ((oldFloat1 != newFloat1) && (health1p != 0x1)) { if (HowtoRumbleHealthEffect == 0) { double percentForce = ((Health1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); } else if (HowtoRumbleHealthEffect == 1) { double percentForce = ((Health1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(0, percentForce, percentLength); } else if (HowtoRumbleHealthEffect == 2) { double percentForce = ((Health1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, 0, percentLength); } } if ((oldFloat2 != newFloat2) && (health2p != 0x1)) { if (HowtoRumbleHealthEffect == 0) { double percentForce = ((Health2pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(percentForce, percentForce, percentLength); } else if (HowtoRumbleHealthEffect == 1) { double percentForce = ((Health2pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(0, percentForce, percentLength); } else if (HowtoRumbleHealthEffect == 2) { double percentForce = ((Health2pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(percentForce, 0, percentLength); } } if (ff1 == 0x20) { if (HowtoRumbleKnockEffect == 0) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); } else if (HowtoRumbleKnockEffect == 1) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(0, percentForce, percentLength); } else if (HowtoRumbleKnockEffect == 2) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, 0, percentLength); } } if (ff1 == 0x40) { if (HowtoRumbleMotorEffect == 0) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); } else if (HowtoRumbleMotorEffect == 1) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(0, percentForce, percentLength); } else if (HowtoRumbleMotorEffect == 2) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, 0, percentLength); } } if (ff1 == 0x4) { if (HowtoRumbleKnockEffect == 0) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(percentForce, percentForce, percentLength); } else if (HowtoRumbleKnockEffect == 1) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(0, percentForce, percentLength); } else if (HowtoRumbleKnockEffect == 2) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(percentForce, 0, percentLength); } } if (ff1 == 0x8) { if (HowtoRumbleMotorEffect == 0) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(percentForce, percentForce, percentLength); } else if (HowtoRumbleMotorEffect == 1) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(0, percentForce, percentLength); } else if (HowtoRumbleMotorEffect == 2) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->RumbleDevice2(percentForce, 0, percentLength); } } if (ff1 == 0x24) { if (HowtoRumbleKnockEffect == 0) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); triggers->RumbleDevice2(percentForce, percentForce, percentLength); } else if (HowtoRumbleKnockEffect == 1) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); triggers->RumbleDevice2(0, percentForce, percentLength); } else if (HowtoRumbleKnockEffect == 2) { double percentForce = ((Knock1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); triggers->RumbleDevice2(percentForce, 0, percentLength); } } if (ff1 == 0x48) { if (HowtoRumbleMotorEffect == 0) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, percentForce, percentLength); triggers->RumbleDevice2(percentForce, percentForce, percentLength); } else if (HowtoRumbleMotorEffect == 1) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(0, percentForce, percentLength); triggers->RumbleDevice2(0, percentForce, percentLength); } else if (HowtoRumbleMotorEffect == 2) { double percentForce = ((Motor1pStrength) / 100.0); double percentLength = configFeedbackLength; triggers->Rumble(percentForce, 0, percentLength); triggers->RumbleDevice2(percentForce, 0, percentLength); } } oldFloat1 = newFloat1; oldFloat2 = newFloat2; }