// SPDX-License-Identifier: MIT // // EmulationStation Desktop Edition // InputManager.cpp // // Low-level input handling. // Initiates and maps the keyboard and controllers. // Reads and writes the es_input.xml configuration file. // #include "InputManager.h" #include "Log.h" #include "Scripting.h" #include "Window.h" #include "resources/ResourceManager.h" #include "utils/FileSystemUtil.h" #include "utils/PlatformUtil.h" #include "utils/StringUtil.h" #include #include #define KEYBOARD_GUID_STRING "-1" #define CEC_GUID_STRING "-2" int SDL_USER_CECBUTTONDOWN = -1; int SDL_USER_CECBUTTONUP = -1; // Save button states for combo-button exit support and predefine exit option-function map. static bool sAltDown {false}; static bool sLguiDown {false}; InputManager::InputManager() noexcept : mWindow {Window::getInstance()} , mKeyboardInputConfig {nullptr} { } InputManager::~InputManager() { // Deinit when destroyed. deinit(); } InputManager& InputManager::getInstance() { static InputManager instance; return instance; } void InputManager::init() { if (initialized()) deinit(); mConfigFileExists = false; LOG(LogInfo) << "Setting up InputManager..."; SDL_InitSubSystem(SDL_INIT_GAMECONTROLLER); SDL_GameControllerEventState(SDL_ENABLE); if (!Utils::FileSystem::exists(getConfigPath())) { LOG(LogInfo) << "No input configuration file found, default mappings will be applied"; } else { mConfigFileExists = true; } mKeyboardInputConfig = std::make_unique(DEVICE_KEYBOARD, "Keyboard", KEYBOARD_GUID_STRING); bool customConfig = loadInputConfig(mKeyboardInputConfig.get()); if (customConfig) { LOG(LogInfo) << "Added keyboard with custom configuration"; } else { loadDefaultKBConfig(); LOG(LogInfo) << "Added keyboard with default configuration"; } // Load optional controller mappings. Normally the supported controllers should be compiled // into SDL as a header file, but if a user has a very rare controller that is not supported, // the bundled mapping is incorrect, or the SDL version is a bit older, it makes sense to be // able to customize this. If a controller GUID is present in the mappings file that is // already present inside SDL, the custom mapping will overwrite the bundled one. std::string mappingsFile = Utils::FileSystem::getHomePath() + "/.emulationstation/" + "es_controller_mappings.cfg"; if (!Utils::FileSystem::exists(mappingsFile)) mappingsFile = ResourceManager::getInstance().getResourcePath( ":/controllers/es_controller_mappings.cfg"); int controllerMappings = SDL_GameControllerAddMappingsFromFile(mappingsFile.c_str()); if (controllerMappings != -1 && controllerMappings != 0) { LOG(LogInfo) << "Loaded " << controllerMappings << " controller " << (controllerMappings == 1 ? "mapping" : "mappings"); } int numJoysticks = SDL_NumJoysticks(); // Make sure that every joystick is actually supported by the GameController API. for (int i = 0; i < numJoysticks; ++i) if (!SDL_IsGameController(i)) --numJoysticks; for (int i = 0; i < numJoysticks; ++i) addControllerByDeviceIndex(nullptr, i); SDL_USER_CECBUTTONDOWN = SDL_RegisterEvents(2); SDL_USER_CECBUTTONUP = SDL_USER_CECBUTTONDOWN + 1; mCECInputConfig = std::make_unique(DEVICE_CEC, "CEC", CEC_GUID_STRING); loadInputConfig(mCECInputConfig.get()); } void InputManager::deinit() { if (!initialized()) return; for (auto it = mControllers.cbegin(); it != mControllers.cend(); ++it) SDL_GameControllerClose(it->second); mControllers.clear(); mJoysticks.clear(); mPrevAxisValues.clear(); mPrevButtonValues.clear(); mInputConfigs.clear(); mKeyboardInputConfig.reset(); mCECInputConfig.reset(); SDL_GameControllerEventState(SDL_DISABLE); SDL_QuitSubSystem(SDL_INIT_GAMECONTROLLER); } void InputManager::writeDeviceConfig(InputConfig* config) { assert(initialized()); std::string path = getConfigPath(); LOG(LogDebug) << "InputManager::writeDeviceConfig(): " "Saving input configuration file to \"" << path << "\""; pugi::xml_document doc; if (Utils::FileSystem::exists(path)) { // Merge files. #if defined(_WIN64) pugi::xml_parse_result result = doc.load_file(Utils::String::stringToWideString(path).c_str()); #else pugi::xml_parse_result result = doc.load_file(path.c_str()); #endif if (!result) { LOG(LogError) << "Couldn't parse input configuration file: " << result.description(); } else { // Successfully loaded, delete the old entry if it exists. pugi::xml_node root = doc.child("inputList"); if (root) { // If inputAction @type=onfinish is set, let doOnFinish command take care of // creating input configuration. We just put the input configuration into a // temporary input config file. pugi::xml_node actionnode = root.find_child_by_attribute("inputAction", "type", "onfinish"); if (actionnode) { path = getTemporaryConfigPath(); doc.reset(); root = doc.append_child("inputList"); root.append_copy(actionnode); } else { pugi::xml_node oldEntry = root.find_child_by_attribute( "inputConfig", "deviceGUID", config->getDeviceGUIDString().c_str()); if (oldEntry) root.remove_child(oldEntry); oldEntry = root.find_child_by_attribute("inputConfig", "deviceName", config->getDeviceName().c_str()); if (oldEntry) root.remove_child(oldEntry); } } } } pugi::xml_node root = doc.child("inputList"); if (!root) root = doc.append_child("inputList"); config->writeToXML(root); #if defined(_WIN64) doc.save_file(Utils::String::stringToWideString(path).c_str()); #else doc.save_file(path.c_str()); #endif Scripting::fireEvent("config-changed"); Scripting::fireEvent("controls-changed"); // Execute any doOnFinish commands and reload the config for changes. doOnFinish(); mConfigFileExists = true; loadInputConfig(config); } void InputManager::doOnFinish() { assert(initialized()); std::string path = getConfigPath(); pugi::xml_document doc; if (Utils::FileSystem::exists(path)) { #if defined(_WIN64) pugi::xml_parse_result result = doc.load_file(Utils::String::stringToWideString(path).c_str()); #else pugi::xml_parse_result result = doc.load_file(path.c_str()); #endif if (!result) { LOG(LogError) << "Couldn't parse input configuration file: " << result.description(); } else { pugi::xml_node root = doc.child("inputList"); if (root) { root = root.find_child_by_attribute("inputAction", "type", "onfinish"); if (root) { for (pugi::xml_node command = root.child("command"); command; command = command.next_sibling("command")) { std::string tocall = command.text().get(); LOG(LogInfo) << " " << tocall; std::cout << "==============================================\n" "input config finish command:\n"; int exitCode = Utils::Platform::runSystemCommand(tocall); std::cout << "==============================================\n"; if (exitCode != 0) { LOG(LogWarning) << "...launch terminated with nonzero exit code " << exitCode << "!"; } } } } } } } std::string InputManager::getConfigPath() { std::string path = Utils::FileSystem::getHomePath(); path += "/.emulationstation/es_input.xml"; return path; } std::string InputManager::getTemporaryConfigPath() { std::string path = Utils::FileSystem::getHomePath(); path += "/.emulationstation/es_temporaryinput.xml"; return path; } int InputManager::getNumConfiguredDevices() { int num = 0; for (auto it = mInputConfigs.cbegin(); it != mInputConfigs.cend(); ++it) if (it->second->isConfigured()) ++num; if (mKeyboardInputConfig->isConfigured()) ++num; if (mCECInputConfig->isConfigured()) ++num; return num; } int InputManager::getAxisCountByDevice(SDL_JoystickID id) { return SDL_JoystickNumAxes(mJoysticks[id]); } int InputManager::getButtonCountByDevice(SDL_JoystickID id) { if (id == DEVICE_KEYBOARD) return -1; else if (id == DEVICE_CEC) #if defined(HAVE_CECLIB) return CEC::CEC_USER_CONTROL_CODE_MAX; #else return 0; #endif else return SDL_JoystickNumButtons(mJoysticks[id]); } std::string InputManager::getDeviceGUIDString(int deviceId) { if (deviceId == DEVICE_KEYBOARD) return KEYBOARD_GUID_STRING; if (deviceId == DEVICE_CEC) return CEC_GUID_STRING; auto it = mJoysticks.find(deviceId); if (it == mJoysticks.cend()) { LOG(LogError) << "getDeviceGUIDString - deviceId " << deviceId << " not found!"; return "Something went horribly wrong"; } char guid[65]; SDL_JoystickGetGUIDString(SDL_JoystickGetGUID(it->second), guid, 65); return std::string(guid); } InputConfig* InputManager::getInputConfigByDevice(int device) { if (device == DEVICE_KEYBOARD) return mKeyboardInputConfig.get(); else if (device == DEVICE_CEC) return mCECInputConfig.get(); else return mInputConfigs[device].get(); } bool InputManager::parseEvent(const SDL_Event& event) { bool causedEvent = false; int32_t axisValue; switch (event.type) { case SDL_CONTROLLERAXISMOTION: { // Whether to only accept input from the first controller. if (Settings::getInstance()->getBool("InputOnlyFirstController")) if (mInputConfigs.begin()->first != event.cdevice.which) return false; // This is needed for a situation which sometimes occur when a game is launched, // some axis input is generated and then the controller is disconnected before // leaving the game. In this case, events for the old device index could be received // when returning from the game. If this happens we simply delete the configuration // map entry. if (!mInputConfigs[event.caxis.which]) { auto it = mInputConfigs.find(event.cdevice.which); mInputConfigs.erase(it); return false; } axisValue = event.caxis.value; int deadzone = 0; if (event.caxis.axis == SDL_CONTROLLER_AXIS_TRIGGERLEFT || event.caxis.axis == SDL_CONTROLLER_AXIS_TRIGGERRIGHT) { deadzone = DEADZONE_TRIGGERS; } else { deadzone = DEADZONE_THUMBSTICKS; } // Check if the input value switched boundaries. if ((abs(axisValue) > deadzone) != (abs(mPrevAxisValues[std::make_pair(event.caxis.which, event.caxis.axis)]) > deadzone)) { int normValue; if (abs(axisValue) <= deadzone) { normValue = 0; } else { if (axisValue > 0) normValue = 1; else normValue = -1; } mWindow->input( getInputConfigByDevice(event.caxis.which), Input(event.caxis.which, TYPE_AXIS, event.caxis.axis, normValue, false)); causedEvent = true; } mPrevAxisValues[std::make_pair(event.caxis.which, event.caxis.axis)] = axisValue; return causedEvent; } case SDL_CONTROLLERBUTTONDOWN: { } case SDL_CONTROLLERBUTTONUP: { // Whether to only accept input from the first controller. if (Settings::getInstance()->getBool("InputOnlyFirstController")) if (mInputConfigs.begin()->first != event.cdevice.which) return false; // The event filtering below is required as some controllers send button presses // starting with the state 0 when using the D-pad. I consider this invalid behavior // and the more popular controllers such as those from Microsoft and Sony do not show // this strange behavior. int buttonState = mPrevButtonValues[std::make_pair(event.cbutton.which, event.cbutton.button)]; if ((buttonState == -1 || buttonState == 0) && event.cbutton.state == 0) return false; mPrevButtonValues[std::make_pair(event.cbutton.which, event.cbutton.button)] = event.cbutton.state; mWindow->input(getInputConfigByDevice(event.cbutton.which), Input(event.cbutton.which, TYPE_BUTTON, event.cbutton.button, event.cbutton.state == SDL_PRESSED, false)); return true; } case SDL_KEYDOWN: { // Save button states for alt and command. if (event.key.keysym.sym == SDLK_LALT) sAltDown = true; if (event.key.keysym.sym == SDLK_LGUI) sLguiDown = true; if (event.key.keysym.sym == SDLK_BACKSPACE && SDL_IsTextInputActive()) mWindow->textInput("\b"); if (event.key.repeat) return false; // Handle application exit. bool exitState; std::string exitOption = Settings::getInstance()->getString("ExitButtonCombo"); if (exitOption == "AltF4") exitState = event.key.keysym.sym == SDLK_F4 && sAltDown; else if (exitOption == "CmdQ") exitState = event.key.keysym.sym == SDLK_q && sLguiDown; else if (exitOption == "AltQ") exitState = event.key.keysym.sym == SDLK_q && sAltDown; else exitState = event.key.keysym.sym == SDLK_F4; if (exitState) { SDL_Event quit; quit.type = SDL_QUIT; SDL_PushEvent(&quit); return false; } mWindow->input(getInputConfigByDevice(DEVICE_KEYBOARD), Input(DEVICE_KEYBOARD, TYPE_KEY, event.key.keysym.sym, 1, false)); return true; } case SDL_KEYUP: { // Release button states. if (event.key.keysym.sym == SDLK_LALT) sAltDown = false; if (event.key.keysym.sym == SDLK_LGUI) sLguiDown = false; mWindow->input(getInputConfigByDevice(DEVICE_KEYBOARD), Input(DEVICE_KEYBOARD, TYPE_KEY, event.key.keysym.sym, 0, false)); return true; } case SDL_TEXTINPUT: { mWindow->textInput(event.text.text); break; } case SDL_CONTROLLERDEVICEADDED: { addControllerByDeviceIndex(mWindow, event.cdevice.which); return true; } case SDL_CONTROLLERDEVICEREMOVED: { removeControllerByJoystickID(mWindow, event.cdevice.which); return false; } } if ((event.type == static_cast(SDL_USER_CECBUTTONDOWN)) || (event.type == static_cast(SDL_USER_CECBUTTONUP))) { mWindow->input(getInputConfigByDevice(DEVICE_CEC), Input(DEVICE_CEC, TYPE_CEC_BUTTON, event.user.code, event.type == static_cast(SDL_USER_CECBUTTONDOWN), false)); return true; } return false; } bool InputManager::loadInputConfig(InputConfig* config) { if (!mConfigFileExists) return false; std::string path = getConfigPath(); pugi::xml_document doc; #if defined(_WIN64) pugi::xml_parse_result res = doc.load_file(Utils::String::stringToWideString(path).c_str()); #else pugi::xml_parse_result res = doc.load_file(path.c_str()); #endif if (!res) { LOG(LogError) << "Couldn't parse the input configuration file: " << res.description(); return false; } pugi::xml_node root = doc.child("inputList"); if (!root) return false; pugi::xml_node configNode = root.find_child_by_attribute("inputConfig", "deviceGUID", config->getDeviceGUIDString().c_str()); // Enabling this will match an entry in es_input.xml based on the device name if there // was no GUID match. This is probably not a good idea as many controllers share the same // name even though the GUID differ and potentially the button configuration could be // different between them. Keeping the code for now though. // if (!configNode) // configNode = root.find_child_by_attribute("inputConfig", // "deviceName", config->getDeviceName().c_str()); // With the move to the SDL GameController API the button layout changed quite a lot, so // es_input.xml files generated using the old API will end up with a completely unusable // controller configuration. These older files had the configuration entry type set to // "joystick", so it's easy to ignore such entries by only accepting entries with the // type set to "controller" (which is now applied when saving the es_input.xml file). if (configNode && config->getDeviceName() != "Keyboard") if (!root.find_child_by_attribute("inputConfig", "type", "controller")) return false; if (!configNode) return false; config->loadFromXML(configNode); return true; } void InputManager::loadDefaultKBConfig() { InputConfig* cfg = getInputConfigByDevice(DEVICE_KEYBOARD); if (cfg->isConfigured()) return; cfg->clear(); cfg->mapInput("Up", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_UP, 1, true)); cfg->mapInput("Down", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_DOWN, 1, true)); cfg->mapInput("Left", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_LEFT, 1, true)); cfg->mapInput("Right", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_RIGHT, 1, true)); cfg->mapInput("A", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_RETURN, 1, true)); cfg->mapInput("B", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_BACKSPACE, 1, true)); cfg->mapInput("X", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_DELETE, 1, true)); #if defined(__APPLE__) cfg->mapInput("Y", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_PRINTSCREEN, 1, true)); #else cfg->mapInput("Y", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_INSERT, 1, true)); #endif cfg->mapInput("Start", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_ESCAPE, 1, true)); cfg->mapInput("Back", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_F1, 1, true)); cfg->mapInput("LeftShoulder", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_PAGEUP, 1, true)); cfg->mapInput("RightShoulder", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_PAGEDOWN, 1, true)); cfg->mapInput("LeftTrigger", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_HOME, 1, true)); cfg->mapInput("RightTrigger", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_END, 1, true)); cfg->mapInput("LeftThumbstickClick", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_F2, 1, true)); cfg->mapInput("RightThumbstickClick", Input(DEVICE_KEYBOARD, TYPE_KEY, SDLK_F3, 1, true)); } void InputManager::loadDefaultControllerConfig(SDL_JoystickID deviceIndex) { InputConfig* cfg = getInputConfigByDevice(deviceIndex); if (cfg->isConfigured()) return; // clang-format off cfg->mapInput("Up", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_DPAD_UP, 1, true)); cfg->mapInput("Down", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_DPAD_DOWN, 1, true)); cfg->mapInput("Left", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_DPAD_LEFT, 1, true)); cfg->mapInput("Right", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_DPAD_RIGHT, 1, true)); cfg->mapInput("Start", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_START, 1, true)); cfg->mapInput("Back", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_BACK, 1, true)); cfg->mapInput("A", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_A, 1, true)); cfg->mapInput("B", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_B, 1, true)); cfg->mapInput("X", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_X, 1, true)); cfg->mapInput("Y", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_Y, 1, true)); cfg->mapInput("LeftShoulder", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_LEFTSHOULDER, 1, true)); cfg->mapInput("RightShoulder", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_RIGHTSHOULDER, 1, true)); cfg->mapInput("LeftTrigger", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_TRIGGERLEFT, 1, true)); cfg->mapInput("RightTrigger", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_TRIGGERRIGHT, 1, true)); cfg->mapInput("LeftThumbstickUp", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_LEFTY, -1, true)); cfg->mapInput("LeftThumbstickDown", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_LEFTY, 1, true)); cfg->mapInput("LeftThumbstickLeft", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_LEFTX, -1, true)); cfg->mapInput("LeftThumbstickRight", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_LEFTX, 1, true)); cfg->mapInput("LeftThumbstickClick", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_LEFTSTICK, 1, true)); cfg->mapInput("RightThumbstickUp", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_RIGHTY, -1, true)); cfg->mapInput("RightThumbstickDown", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_RIGHTY, 1, true)); cfg->mapInput("RightThumbstickLeft", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_RIGHTX, -1, true)); cfg->mapInput("RightThumbstickRight", Input(deviceIndex, TYPE_AXIS, SDL_CONTROLLER_AXIS_RIGHTX, 1, true)); cfg->mapInput("RightThumbstickClick", Input(deviceIndex, TYPE_BUTTON, SDL_CONTROLLER_BUTTON_RIGHTSTICK, 1, true)); // clang-format on } void InputManager::addControllerByDeviceIndex(Window* window, int deviceIndex) { // Open joystick and add it to our list. SDL_GameController* controller = SDL_GameControllerOpen(deviceIndex); if (controller == nullptr) { LOG(LogError) << "Couldn't add controller with device index " << deviceIndex; return; } SDL_Joystick* joy = SDL_GameControllerGetJoystick(controller); // Add it to our list so we can close it again later. SDL_JoystickID joyID = SDL_JoystickInstanceID(joy); mJoysticks[joyID] = joy; mControllers[joyID] = controller; char guid[65]; SDL_JoystickGetGUIDString(SDL_JoystickGetGUID(joy), guid, 65); mInputConfigs[joyID] = std::make_unique(joyID, SDL_GameControllerName(mControllers[joyID]), guid); bool customConfig = loadInputConfig(mInputConfigs[joyID].get()); if (customConfig) { LOG(LogInfo) << "Added controller with custom configuration: \"" << SDL_GameControllerName(mControllers[joyID]) << "\" (GUID: " << guid << ", instance ID: " << joyID << ", device index: " << deviceIndex << ")"; } else { loadDefaultControllerConfig(joyID); LOG(LogInfo) << "Added controller with default configuration: \"" << SDL_GameControllerName(mControllers[joyID]) << "\" (GUID: " << guid << ", instance ID: " << joyID << ", device index: " << deviceIndex << ")"; } if (window != nullptr) { window->queueInfoPopup( "ADDED INPUT DEVICE '" + Utils::String::toUpper(std::string(SDL_GameControllerName(mControllers[joyID]))) + "'", 4000); } int numAxes = SDL_JoystickNumAxes(joy); int numButtons = SDL_JoystickNumButtons(joy); for (int axis = 0; axis < numAxes; ++axis) mPrevAxisValues[std::make_pair(joyID, axis)] = 0; for (int button = 0; button < numButtons; ++button) mPrevButtonValues[std::make_pair(joyID, button)] = -1; } void InputManager::removeControllerByJoystickID(Window* window, SDL_JoystickID joyID) { assert(joyID != -1); char guid[65]; SDL_Joystick* joy = SDL_JoystickFromInstanceID(joyID); SDL_JoystickGetGUIDString(SDL_JoystickGetGUID(joy), guid, 65); LOG(LogInfo) << "Removed controller \"" << SDL_GameControllerName(mControllers[joyID]) << "\" (GUID: " << guid << ", instance ID: " << joyID << ")"; if (window != nullptr) { window->queueInfoPopup( "REMOVED INPUT DEVICE '" + Utils::String::toUpper(std::string(SDL_GameControllerName(mControllers[joyID]))) + "'", 4000); } // Delete mPrevAxisValues for the device. int axisEntries = static_cast(mPrevAxisValues.size()); for (int i = 0; i < axisEntries; ++i) { auto entry = mPrevAxisValues.find(std::make_pair(joyID, i)); if (entry != mPrevAxisValues.end()) { mPrevAxisValues.erase(entry); } } // Delete mPrevButtonValues for the device. int buttonEntries = static_cast(mPrevButtonValues.size()); for (int i = 0; i < buttonEntries; ++i) { auto entry = mPrevButtonValues.find(std::make_pair(joyID, i)); if (entry != mPrevButtonValues.end()) { mPrevButtonValues.erase(entry); } } auto it = mInputConfigs.find(joyID); mInputConfigs.erase(it); // Close the controller and remove its entry. auto controllerIt = mControllers.find(joyID); if (controllerIt != mControllers.cend()) { SDL_GameControllerClose(controllerIt->second); mControllers.erase(controllerIt); } else { LOG(LogError) << "Couldn't find controller to close (instance ID: " << joyID << ")"; } // Remove the joystick entry. auto joystickIt = mJoysticks.find(joyID); if (joystickIt != mJoysticks.cend()) { mJoysticks.erase(joystickIt); } else { LOG(LogError) << "Couldn't find joystick entry to remove (instance ID: " << joyID << ")"; } }