/** ** Supermodel ** A Sega Model 3 Arcade Emulator. ** Copyright 2011 Bart Trzynadlowski, Nik Henson ** ** This file is part of Supermodel. ** ** Supermodel 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. ** ** Supermodel 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 Supermodel. If not, see . **/ /* * SDLInputSystem.cpp * * Implementation of SDL input system. * * TODO: * ----- * - Implement multiple keyboard and mouse support. */ #include "SDLInputSystem.h" #include "Supermodel.h" #include "Inputs/Input.h" #include using namespace std; SDLKeyMapStruct CSDLInputSystem::s_keyMap[] = { // General keys { "BACKSPACE", SDL_SCANCODE_BACKSPACE }, { "TAB", SDL_SCANCODE_TAB }, { "CLEAR", SDL_SCANCODE_CLEAR }, { "RETURN", SDL_SCANCODE_RETURN }, { "PAUSE", SDL_SCANCODE_PAUSE }, { "ESCAPE", SDL_SCANCODE_ESCAPE }, { "SPACE", SDL_SCANCODE_SPACE }, { "QUOTE", SDL_SCANCODE_APOSTROPHE }, { "LEFTPAREN", SDL_SCANCODE_KP_LEFTPAREN }, { "RIGHTPAREN", SDL_SCANCODE_KP_RIGHTPAREN }, { "COMMA", SDL_SCANCODE_COMMA }, { "MINUS", SDL_SCANCODE_MINUS }, { "PERIOD", SDL_SCANCODE_PERIOD }, { "SLASH", SDL_SCANCODE_SLASH }, { "0", SDL_SCANCODE_0 }, { "1", SDL_SCANCODE_1 }, { "2", SDL_SCANCODE_2 }, { "3", SDL_SCANCODE_3 }, { "4", SDL_SCANCODE_4 }, { "5", SDL_SCANCODE_5 }, { "6", SDL_SCANCODE_6 }, { "7", SDL_SCANCODE_7 }, { "8", SDL_SCANCODE_8 }, { "9", SDL_SCANCODE_9 }, { "SEMICOLON", SDL_SCANCODE_SEMICOLON }, { "EQUALS", SDL_SCANCODE_EQUALS }, { "LEFTBRACKET", SDL_SCANCODE_LEFTBRACKET }, { "BACKSLASH", SDL_SCANCODE_BACKSLASH }, { "RIGHTBRACKET", SDL_SCANCODE_RIGHTBRACKET }, { "BACKQUOTE", SDL_SCANCODE_GRAVE }, { "A", SDL_SCANCODE_A }, { "B", SDL_SCANCODE_B }, { "C", SDL_SCANCODE_C }, { "D", SDL_SCANCODE_D }, { "E", SDL_SCANCODE_E }, { "F", SDL_SCANCODE_F }, { "G", SDL_SCANCODE_G }, { "H", SDL_SCANCODE_H }, { "I", SDL_SCANCODE_I }, { "J", SDL_SCANCODE_J }, { "K", SDL_SCANCODE_K }, { "L", SDL_SCANCODE_L }, { "M", SDL_SCANCODE_M }, { "N", SDL_SCANCODE_N }, { "O", SDL_SCANCODE_O }, { "P", SDL_SCANCODE_P }, { "Q", SDL_SCANCODE_Q }, { "R", SDL_SCANCODE_R }, { "S", SDL_SCANCODE_S }, { "T", SDL_SCANCODE_T }, { "U", SDL_SCANCODE_U }, { "V", SDL_SCANCODE_V }, { "W", SDL_SCANCODE_W }, { "X", SDL_SCANCODE_X }, { "Y", SDL_SCANCODE_Y }, { "Z", SDL_SCANCODE_Z }, { "DEL", SDL_SCANCODE_DELETE }, // Keypad { "KEYPAD0", SDL_SCANCODE_KP_0 }, { "KEYPAD1", SDL_SCANCODE_KP_1 }, { "KEYPAD2", SDL_SCANCODE_KP_2 }, { "KEYPAD3", SDL_SCANCODE_KP_3 }, { "KEYPAD4", SDL_SCANCODE_KP_4 }, { "KEYPAD5", SDL_SCANCODE_KP_5 }, { "KEYPAD6", SDL_SCANCODE_KP_6 }, { "KEYPAD7", SDL_SCANCODE_KP_7 }, { "KEYPAD8", SDL_SCANCODE_KP_8 }, { "KEYPAD9", SDL_SCANCODE_KP_9 }, { "KEYPADPERIOD", SDL_SCANCODE_KP_PERIOD }, { "KEYPADDIVIDE", SDL_SCANCODE_KP_DIVIDE }, { "KEYPADMULTIPLY", SDL_SCANCODE_KP_MULTIPLY }, { "KEYPADMINUS", SDL_SCANCODE_KP_MINUS }, { "KEYPADPLUS", SDL_SCANCODE_KP_PLUS }, { "KEYPADENTER", SDL_SCANCODE_KP_ENTER }, { "KEYPADEQUALS", SDL_SCANCODE_KP_EQUALS }, // Arrows + Home/End Pad { "UP", SDL_SCANCODE_UP }, { "DOWN", SDL_SCANCODE_DOWN }, { "RIGHT", SDL_SCANCODE_RIGHT }, { "LEFT", SDL_SCANCODE_LEFT }, { "INSERT", SDL_SCANCODE_INSERT }, { "HOME", SDL_SCANCODE_HOME }, { "END", SDL_SCANCODE_END }, { "PGUP", SDL_SCANCODE_PAGEUP }, { "PGDN", SDL_SCANCODE_PAGEDOWN }, // Function Key { "F1", SDL_SCANCODE_F1 }, { "F2", SDL_SCANCODE_F2 }, { "F3", SDL_SCANCODE_F3 }, { "F4", SDL_SCANCODE_F4 }, { "F5", SDL_SCANCODE_F5 }, { "F6", SDL_SCANCODE_F6 }, { "F7", SDL_SCANCODE_F7 }, { "F8", SDL_SCANCODE_F8 }, { "F9", SDL_SCANCODE_F9 }, { "F10", SDL_SCANCODE_F10 }, { "F11", SDL_SCANCODE_F11 }, { "F12", SDL_SCANCODE_F12 }, { "F13", SDL_SCANCODE_F13 }, { "F14", SDL_SCANCODE_F14 }, { "F15", SDL_SCANCODE_F15 }, // Modifier Keys // Removed Numlock, Capslock and Scrollock as don't seem to be handled well by SDL //{ "NUMLOCK", SDLK_NUMLOCK }, //{ "CAPSLOCK", SDL_SCANCODE_CAPSLOCK }, //{ "SCROLLLOCK", SDLK_SCROLLOCK }, { "RIGHTSHIFT", SDL_SCANCODE_RSHIFT }, { "LEFTSHIFT", SDL_SCANCODE_LSHIFT }, { "RIGHTCTRL", SDL_SCANCODE_RCTRL }, { "LEFTCTRL", SDL_SCANCODE_LCTRL }, { "RIGHTALT", SDL_SCANCODE_RALT }, { "LEFTALT", SDL_SCANCODE_LALT }, { "RIGHTMETA", SDL_SCANCODE_RGUI }, { "LEFTMETA", SDL_SCANCODE_LGUI }, { "ALTGR", SDL_SCANCODE_MODE }, // Other { "HELP", SDL_SCANCODE_HELP }, { "SYSREQ", SDL_SCANCODE_SYSREQ }, { "MENU", SDL_SCANCODE_MENU }, { "POWER", SDL_SCANCODE_POWER }, { "UNDO", SDL_SCANCODE_UNDO } }; CSDLInputSystem::CSDLInputSystem(const Util::Config::Node& config) : CInputSystem("SDL"), m_keyState(nullptr), m_mouseX(0), m_mouseY(0), m_mouseZ(0), m_mouseButtons(0), m_config(config) { // } CSDLInputSystem::~CSDLInputSystem() { CloseJoysticks(); } void CSDLInputSystem::OpenJoysticks() { // Open all available joysticks int numJoys = SDL_NumJoysticks(); int numHapticAxes = 0; int possibleEffect = 0; for (int joyNum = 0; joyNum < numJoys; joyNum++) { numHapticAxes = 0; SDL_Joystick *joystick = SDL_JoystickOpen(joyNum); if (joystick == nullptr) { ErrorLog("Unable to open joystick device %d with SDL - skipping joystick.\n", joyNum + 1); continue; } // Gather joystick details (name, num POVs & buttons and which axes are available) JoyDetails joyDetails; hapticInfo hapticDatas; const char *pName = SDL_JoystickName(joystick); strncpy(joyDetails.name, pName, MAX_NAME_LENGTH); joyDetails.name[MAX_NAME_LENGTH] = '\0'; joyDetails.numAxes = SDL_JoystickNumAxes(joystick); if (SDL_JoystickIsHaptic(joystick)) joyDetails.hasFFeedback = true; else joyDetails.hasFFeedback = false; if (joyDetails.hasFFeedback) { hapticDatas.SDLhaptic = SDL_HapticOpenFromJoystick(joystick); if (hapticDatas.SDLhaptic == NULL) { ErrorLog("Unable to obtain haptic interface for joystick %s. Force feedback will be disabled for this joystick.", joyDetails.name); joyDetails.hasFFeedback = false; numHapticAxes = 0; } else { numHapticAxes = SDL_HapticNumAxes(hapticDatas.SDLhaptic); // depending device, SDL_HapticNumAxes return wrong number of ffb axes (bug on device driver on windows or other ?) // ie : saitek cyborg evo force joystick returns 3 ffb axes instead of 2 ffb axes, this leads to unable to create effects on this device // generally, none of commercial ffb products have more than 2 ffb axes // in this case, we need to force the correct number of ffb axes by adding manually a new sdl2 function // see https://forums.libsdl.org/viewtopic.php?t=5195 // enabled this code if you have a saitek cyborg evo force or if you find another device that return wrong number of ffb axis // don't forget to edit sdl2 source code in Supermodel project //#define HAPTIC_MOD #if (defined _WIN32 && defined HAPTIC_MOD) if (numHapticAxes > 2) { DebugLog("Joystick : %s return more than 2 ffb axes, need sdl2 addon SDL_HapticSetAxes() to bypass\n", SDL_HapticName(joyNum)); if (strcmp(joyDetails.name, "Saitek Cyborg Evo Force") == 0) // remove if any other particular case SDL_HapticSetAxes(hapticDatas.SDLhaptic, 2); // /!\ function manually added to SDL2 project } #endif // sdl2 bug on linux only ? // SDL_HapticNumAxes() : on win it reports good number of haptic axe, on linux 18.04 it reports always 2 haptic axes (bad) whatever the device // file : SDL2-2.0.10\src\haptic\linux\SDL_syshaptic.c // function : static int SDL_SYS_HapticOpenFromFD(SDL_Haptic * haptic, int fd) // haptic->naxes = 2; // Hardcoded for now, not sure if it's possible to find out. <- note from the sdl2 devs #ifndef _WIN32 if (!HasBasicForce(hapticDatas.SDLhaptic)) numHapticAxes = 0; #endif DebugLog("joy num %d haptic num axe %d name : %s\n", joyNum, numHapticAxes, SDL_HapticName(joyNum)); } } for (int axisNum = 0; axisNum < NUM_JOY_AXES; axisNum++) { joyDetails.hasAxis[axisNum] = joyDetails.numAxes > axisNum; if (numHapticAxes > 0 && joyDetails.hasAxis[axisNum]) // unable to know which axes have ffb joyDetails.axisHasFF[axisNum] = true; else joyDetails.axisHasFF[axisNum] = false; char *axisName = joyDetails.axisName[axisNum]; strcpy(axisName, CInputSystem::GetDefaultAxisName(axisNum)); } joyDetails.numPOVs = SDL_JoystickNumHats(joystick); joyDetails.numButtons = SDL_JoystickNumButtons(joystick); if (joyDetails.hasFFeedback && hapticDatas.SDLhaptic != NULL && numHapticAxes > 0) // not a pad but wheel or joystick { SDL_HapticSetAutocenter(hapticDatas.SDLhaptic, 0); SDL_HapticSetGain(hapticDatas.SDLhaptic, 100); possibleEffect = SDL_HapticQuery(hapticDatas.SDLhaptic); // constant effect if (possibleEffect & SDL_HAPTIC_CONSTANT) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_CONSTANT; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.constant.direction.dir[0] = 0; eff.constant.length = 30; eff.constant.delay = 0; eff.constant.level = 0; hapticDatas.effectConstantForceID = SDL_HapticNewEffect(hapticDatas.SDLhaptic, &eff);; if (hapticDatas.effectConstantForceID < 0) ErrorLog("Unable to create constant force effect for joystick %s (joy id=%d). Constant force will not be applied.", joyDetails.name, joyNum + 1); } // vibration effect if (possibleEffect & SDL_HAPTIC_SINE) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_SINE; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.constant.length = 500; eff.constant.delay = 0; eff.periodic.period = 50; eff.periodic.magnitude = 0; hapticDatas.effectVibrationID = SDL_HapticNewEffect(hapticDatas.SDLhaptic, &eff); if (hapticDatas.effectVibrationID < 0) ErrorLog("Unable to create vibration effect for joystick %s (joy id=%d). Vibration will not be applied.", joyDetails.name, joyNum + 1); } // spring effect if (possibleEffect & SDL_HAPTIC_SPRING) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_SPRING; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.condition.delay = 0; eff.condition.length = SDL_HAPTIC_INFINITY; eff.condition.left_sat[0] = 0xFFFF; eff.condition.right_sat[0] = 0xFFFF; eff.condition.left_coeff[0] = 0; eff.condition.right_coeff[0] = 0; hapticDatas.effectSpringForceID = SDL_HapticNewEffect(hapticDatas.SDLhaptic, &eff); if (hapticDatas.effectSpringForceID < 0) ErrorLog("Unable to create spring force effect for joystick %s (joy id=%d). Spring force will not be applied.", joyDetails.name, joyNum + 1); } // friction effect if (possibleEffect & SDL_HAPTIC_FRICTION) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_FRICTION; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.condition.delay = 0; eff.condition.length = SDL_HAPTIC_INFINITY; eff.condition.left_sat[0] = 0xFFFF; eff.condition.right_sat[0] = 0xFFFF; eff.condition.left_coeff[0] = 0; eff.condition.right_coeff[0] = 0; hapticDatas.effectFrictionForceID = SDL_HapticNewEffect(hapticDatas.SDLhaptic, &eff); if (hapticDatas.effectFrictionForceID < 0) ErrorLog("Unable to create friction force effect for joystick %s (joy id=%d). Friction force will not be applied.", joyDetails.name, joyNum + 1); } } if (joyDetails.hasFFeedback && hapticDatas.SDLhaptic != NULL && numHapticAxes == 0) // pad with rumble. Note : SDL_HapticRumbleSupported() is not enough to detect rumble pad only because joystick or wheel may have also rumble { if (SDL_HapticRumbleInit(hapticDatas.SDLhaptic) < 0) { ErrorLog("Unable to create rumble effect for pad %s (pad id=%d). Rumble will not be applied.SDL_HapticRumbleInit failed : %s", joyDetails.name, joyNum + 1, SDL_GetError()); joyDetails.axisHasFF[AXIS_X] = false; joyDetails.axisHasFF[AXIS_Y] = false; } else { joyDetails.axisHasFF[AXIS_X] = true; // Force feedback simulated on X axis sticks (fake) joyDetails.axisHasFF[AXIS_Y] = true; // Force feedback simulated on Y axis sticks (fake) } } m_joysticks.push_back(joystick); m_joyDetails.push_back(joyDetails); m_SDLHapticDatas.push_back(hapticDatas); } } void CSDLInputSystem::CloseJoysticks() { // Close all previously opened joysticks for (size_t i = 0; i < m_joysticks.size(); i++) { JoyDetails joyDetails = m_joyDetails[i]; if (joyDetails.hasFFeedback) { if (m_SDLHapticDatas[i].effectConstantForceID >= 0) SDL_HapticDestroyEffect(m_SDLHapticDatas[i].SDLhaptic, m_SDLHapticDatas[i].effectConstantForceID); if (m_SDLHapticDatas[i].effectVibrationID >= 0) SDL_HapticDestroyEffect(m_SDLHapticDatas[i].SDLhaptic, m_SDLHapticDatas[i].effectVibrationID); if (m_SDLHapticDatas[i].effectSpringForceID >= 0) SDL_HapticDestroyEffect(m_SDLHapticDatas[i].SDLhaptic, m_SDLHapticDatas[i].effectSpringForceID); if (m_SDLHapticDatas[i].effectFrictionForceID >= 0) SDL_HapticDestroyEffect(m_SDLHapticDatas[i].SDLhaptic, m_SDLHapticDatas[i].effectFrictionForceID); SDL_HapticClose(m_SDLHapticDatas[i].SDLhaptic); } SDL_Joystick *joystick = m_joysticks[i]; SDL_JoystickClose(joystick); } m_joysticks.clear(); m_joyDetails.clear(); m_SDLHapticDatas.clear(); } bool CSDLInputSystem::InitializeSystem() { // Make sure joystick subsystem is initialized and joystick events are enabled if (SDL_InitSubSystem(SDL_INIT_JOYSTICK | SDL_INIT_HAPTIC) != 0) { ErrorLog("Unable to initialize SDL joystick subsystem (%s).\n", SDL_GetError()); return false; } SDL_JoystickEventState(SDL_ENABLE); // Open attached joysticks OpenJoysticks(); return true; } int CSDLInputSystem::GetKeyIndex(const char *keyName) { for (int i = 0; i < NUM_SDL_KEYS; i++) { if (stricmp(keyName, s_keyMap[i].keyName) == 0) return i; } return -1; } const char *CSDLInputSystem::GetKeyName(int keyIndex) { if (keyIndex < 0 || keyIndex >= NUM_SDL_KEYS) return nullptr; return s_keyMap[keyIndex].keyName; } bool CSDLInputSystem::IsKeyPressed(int kbdNum, int keyIndex) { // Get SDL key for given index and check if currently pressed SDL_Keycode sdlKey = s_keyMap[keyIndex].sdlKey; return !!m_keyState[sdlKey]; } int CSDLInputSystem::GetMouseAxisValue(int mseNum, int axisNum) { // Return value for given mouse axis switch (axisNum) { case AXIS_X: return m_mouseX; case AXIS_Y: return m_mouseY; case AXIS_Z: return m_mouseZ; default: return 0; } } int CSDLInputSystem::GetMouseWheelDir(int mseNum) { // Return wheel value return m_mouseWheelDir; } bool CSDLInputSystem::IsMouseButPressed(int mseNum, int butNum) { // Return value for given mouse button switch (butNum) { case 0: return !!(m_mouseButtons & SDL_BUTTON_LMASK); case 1: return !!(m_mouseButtons & SDL_BUTTON_MMASK); case 2: return !!(m_mouseButtons & SDL_BUTTON_RMASK); case 3: return !!(m_mouseButtons & SDL_BUTTON_X1MASK); case 4: return !!(m_mouseButtons & SDL_BUTTON_X2MASK); default: return false; } } int CSDLInputSystem::GetJoyAxisValue(int joyNum, int axisNum) { // Get raw joystick axis value for given joystick from SDL (values range from -32768 to 32767) SDL_Joystick *joystick = m_joysticks[joyNum]; return SDL_JoystickGetAxis(joystick, axisNum); } bool CSDLInputSystem::IsJoyPOVInDir(int joyNum, int povNum, int povDir) { // Get current joystick POV-hat value for given joystick and POV number from SDL and check if pointing in required direction SDL_Joystick *joystick = m_joysticks[joyNum]; int hatVal = SDL_JoystickGetHat(joystick, povNum); switch (povDir) { case POV_UP: return !!(hatVal & SDL_HAT_UP); case POV_DOWN: return !!(hatVal & SDL_HAT_DOWN); case POV_LEFT: return !!(hatVal & SDL_HAT_LEFT); case POV_RIGHT: return !!(hatVal & SDL_HAT_RIGHT); default: return false; } return false; } bool CSDLInputSystem::IsJoyButPressed(int joyNum, int butNum) { // Get current joystick button state for given joystick and button number from SDL SDL_Joystick *joystick = m_joysticks[joyNum]; return !!SDL_JoystickGetButton(joystick, butNum); } bool CSDLInputSystem::ProcessForceFeedbackCmd(int joyNum, int axisNum, ForceFeedbackCmd ffCmd) { switch (ffCmd.id) { case FFStop: StopAllEffect(joyNum); break; case FFConstantForce: sdlConstForceMax = m_config["SDLConstForceMax"].ValueAs(); if (sdlConstForceMax == 0) return false; // note sr2 centering val=0.047244 and val=0.062992 alternatively (const value) // max val between -1 to 1 (left right) if (ffCmd.force == 0.0f) StopConstanteforce(joyNum); else if (ffCmd.force > 0.0f) ConstantForceEffect(ffCmd.force * (float)(sdlConstForceMax / 100.0f), -1, SDL_HAPTIC_INFINITY, joyNum); else if (ffCmd.force < 0.0f) ConstantForceEffect(-ffCmd.force * (float)(sdlConstForceMax / 100.0f), 1, SDL_HAPTIC_INFINITY, joyNum); break; case FFSelfCenter: sdlSelfCenterMax = m_config["SDLSelfCenterMax"].ValueAs(); if (sdlSelfCenterMax == 0) return false; SpringForceEffect(ffCmd.force * (float)(sdlSelfCenterMax / 100.0f), joyNum); break; case FFFriction: sdlFrictionMax = m_config["SDLFrictionMax"].ValueAs(); if (sdlFrictionMax == 0) return false; FrictionForceEffect(ffCmd.force * (float)(sdlFrictionMax / 100.0f), joyNum); break; case FFVibrate: sdlVibrateMax = m_config["SDLVibrateMax"].ValueAs(); if (sdlVibrateMax == 0) return false; VibrationEffect(ffCmd.force * (float)(sdlVibrateMax / 100.0f), joyNum); break; } return true; } int CSDLInputSystem::GetNumKeyboards() { // Return ANY_KEYBOARD as SDL 1.2 cannot handle multiple keyboards return ANY_KEYBOARD; } int CSDLInputSystem::GetNumMice() { // Return ANY_MOUSE as SDL 1.2 cannot handle multiple mice return ANY_MOUSE; } int CSDLInputSystem::GetNumJoysticks() { // Return number of joysticks found return (int)m_joysticks.size(); } const KeyDetails *CSDLInputSystem::GetKeyDetails(int kbdNum) { // Return nullptr as SDL 1.2 cannot handle multiple keyboards return nullptr; } const MouseDetails *CSDLInputSystem::GetMouseDetails(int mseNum) { // Return nullptr as SDL 1.2 cannot handle multiple mice return nullptr; } const JoyDetails *CSDLInputSystem::GetJoyDetails(int joyNum) { return &m_joyDetails[joyNum]; } bool CSDLInputSystem::Poll() { // Reset mouse wheel direction m_mouseWheelDir = 0; // Poll for event from SDL SDL_Event e; while (SDL_PollEvent(&e)) { switch (e.type) { default: break; case SDL_QUIT: return false; case SDL_MOUSEWHEEL: if (e.button.y > 0) { m_mouseZ += 5; m_mouseWheelDir = 1; } else if (e.button.y < 0) { m_mouseZ -= 5; m_mouseWheelDir = -1; } break; } } // Get key state from SDL m_keyState = SDL_GetKeyboardState(nullptr); // Get mouse state from SDL (except mouse wheel which was handled earlier) m_mouseButtons = SDL_GetMouseState(&m_mouseX, &m_mouseY); // Update joystick state (not required as called implicitly by SDL_PollEvent above) //SDL_JoystickUpdate(); return true; } void CSDLInputSystem::SetMouseVisibility(bool visible) { SDL_ShowCursor(visible ? SDL_ENABLE : SDL_DISABLE); } void CSDLInputSystem::StopAllEffect(int joyNum) { StopConstanteforce(joyNum); StopVibrationforce(joyNum); StopSpringforce(joyNum); StopFrictionforce(joyNum); } void CSDLInputSystem::StopConstanteforce(int joyNum) { // stop constante effect or rumble constant effect SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_CONSTANT; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.constant.direction.dir[0] = 0; eff.constant.length = 30; eff.constant.delay = 0; eff.constant.level = 0; if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectConstantForceID, &eff); } else { SDL_HapticRumbleStop(m_SDLHapticDatas[joyNum].SDLhaptic); } } void CSDLInputSystem::StopVibrationforce(int joyNum) { // stop vibration-rumble effect SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_SINE; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.constant.length = 500; eff.constant.delay = 0; eff.periodic.period = 50; eff.periodic.magnitude = 0; if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectVibrationID, &eff); } else { SDL_HapticRumbleStop(m_SDLHapticDatas[joyNum].SDLhaptic); } } void CSDLInputSystem::StopSpringforce(int joyNum) { // stop spring effect SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_SPRING; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.condition.delay = 0; eff.condition.length = SDL_HAPTIC_INFINITY; eff.condition.left_sat[0] = 0xFFFF; eff.condition.right_sat[0] = 0xFFFF; eff.condition.left_coeff[0] = 0; eff.condition.right_coeff[0] = 0; if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectSpringForceID, &eff); } } void CSDLInputSystem::StopFrictionforce(int joyNum) { // stop friction effect SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_FRICTION; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.condition.delay = 0; eff.condition.length = SDL_HAPTIC_INFINITY; eff.condition.left_sat[0] = 0xFFFF; eff.condition.right_sat[0] = 0xFFFF; eff.condition.left_coeff[0] = 0; eff.condition.right_coeff[0] = 0; if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectFrictionForceID, &eff); } } void CSDLInputSystem::VibrationEffect(float strength, int joyNum) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_SINE; eff.constant.direction.type = SDL_HAPTIC_CARTESIAN; eff.periodic.delay = 0; eff.periodic.length = SDL_HAPTIC_INFINITY; eff.periodic.period = 50; eff.periodic.magnitude = (int)(strength * INT16_MAX); if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectVibrationID, &eff); SDL_HapticRunEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectVibrationID, 1); } else { if (strength != 0.0f) SDL_HapticRumblePlay(m_SDLHapticDatas[joyNum].SDLhaptic, strength, 0); else SDL_HapticRumbleStop(m_SDLHapticDatas[joyNum].SDLhaptic); } } void CSDLInputSystem::ConstantForceEffect(float force, int dir, int length, int joyNum) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_CONSTANT; eff.constant.direction.type = SDL_HAPTIC_CARTESIAN; eff.constant.direction.dir[0] = 0; // in cartesian mode dir on x set 0 on y set 1 eff.constant.length = length; eff.constant.level = (int)(dir * (force * INT16_MAX)); if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectConstantForceID, &eff); SDL_HapticRunEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectConstantForceID, 1); } else { float threshold = (float)m_config["SDLConstForceThreshold"].ValueAs() / 100.0f; if (force != 0.0f && force > threshold) SDL_HapticRumblePlay(m_SDLHapticDatas[joyNum].SDLhaptic, force, 200); else SDL_HapticRumbleStop(m_SDLHapticDatas[joyNum].SDLhaptic); } } void CSDLInputSystem::SpringForceEffect(float force, int joyNum) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_SPRING; eff.constant.direction.type = SDL_HAPTIC_CARTESIAN; eff.condition.delay = 0; eff.condition.length = SDL_HAPTIC_INFINITY; eff.condition.left_sat[0] = 0xffff; eff.condition.right_sat[0] = 0xffff; eff.condition.left_coeff[0] = (int)(force * INT16_MAX); eff.condition.right_coeff[0] = (int)(force * INT16_MAX); if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectSpringForceID, &eff); SDL_HapticRunEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectSpringForceID, 1); } } void CSDLInputSystem::FrictionForceEffect(float force, int joyNum) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_FRICTION; eff.constant.direction.type = SDL_HAPTIC_CARTESIAN; eff.condition.delay = 0; eff.condition.length = SDL_HAPTIC_INFINITY; eff.condition.left_sat[0] = 0xffff; eff.condition.right_sat[0] = 0xffff; eff.condition.left_coeff[0] = (int)(force * INT16_MAX); eff.condition.right_coeff[0] = (int)(force * INT16_MAX); if (SDL_HapticEffectSupported(m_SDLHapticDatas[joyNum].SDLhaptic, &eff)) { SDL_HapticUpdateEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectFrictionForceID, &eff); SDL_HapticRunEffect(m_SDLHapticDatas[joyNum].SDLhaptic, m_SDLHapticDatas[joyNum].effectFrictionForceID, 1); } } // due to the sdl2 SDL_HapticNumAxes() bug in linux (always return 2 in linux) // test if haptic controller has the most basic constant force effect // if it has -> ffb wheel or ffb joystick // if it hasn't -> pad bool CSDLInputSystem::HasBasicForce(SDL_Haptic* hap) { SDL_memset(&eff, 0, sizeof(SDL_HapticEffect)); eff.type = SDL_HAPTIC_CONSTANT; eff.periodic.direction.type = SDL_HAPTIC_CARTESIAN; eff.constant.direction.dir[0] = 0; eff.constant.length = 30; eff.constant.delay = 0; eff.constant.level = 0; if (SDL_HapticEffectSupported(hap, &eff)) return true; else return false; }