/** * @file llgamecontrol.h * @brief GameController detection and management * * $LicenseInfo:firstyear=2023&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2023, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #pragma once #include #include "llerror.h" #include "llsingleton.h" #include "stdtypes.h" // For reference, here are the RAW indices of the various input channels // of a standard XBox controller. Button (N) is numbered in parentheses, // whereas axisN has N+ and N- labels. // // leftpaddle rightpaddle // _______ _______ // / 4+ '-. .-' 5+ \ // leftshoulder _(9)_________'-.____ ____.-'_________(10) rightshoulder // / _________ \_________/ \ // / / 1- \ (3) \ // | | | (4) (5) (6) Y | // | |0- (7) 0+| _________ (2)X B(1) | // | | | / 3- \ A | // | | 1+ | | | (0) | // | \_________/ |2- (8) 2+| | // | leftstick (11) | | | // | (13) (14) | 3+ | | // | (12) \_________/ | // | d-pad rightstick | // | ____________________ | // | / \ | // | / \ | // | / \ | // \__________/ \__________/ // // Note: the analog joysticks provide NEGATIVE X,Y values for LEFT,FORWARD // whereas those directions are actually POSITIVE in SL's local right-handed // reference frame. This is why we implicitly negate those axes the moment // they are extracted from SDL, before being used anywhere. See the // implementation in LLGameControllerManager::onAxis(). // LLGameControl is a singleton with pure static public interface class LLGameControl : public LLSingleton { LLSINGLETON_EMPTY_CTOR(LLGameControl); virtual ~LLGameControl(); LOG_CLASS(LLGameControl); public: enum AgentControlMode { CONTROL_MODE_AVATAR, CONTROL_MODE_FLYCAM, CONTROL_MODE_NONE }; enum ActionNameType { ACTION_NAME_UNKNOWN, ACTION_NAME_ANALOG, // E.g., "push" ACTION_NAME_ANALOG_POS, // E.g., "push+" ACTION_NAME_ANALOG_NEG, // E.g., "push-" ACTION_NAME_BINARY, // E.g., "stop" ACTION_NAME_FLYCAM // E.g., "zoom" }; enum KeyboardAxis : U8 { AXIS_LEFTX, AXIS_LEFTY, AXIS_RIGHTX, AXIS_RIGHTY, AXIS_TRIGGERLEFT, AXIS_TRIGGERRIGHT, NUM_AXES }; enum Button { BUTTON_A, BUTTON_B, BUTTON_X, BUTTON_Y, BUTTON_BACK, BUTTON_GUIDE, BUTTON_START, BUTTON_LEFTSTICK, BUTTON_RIGHTSTICK, BUTTON_LEFTSHOULDER, BUTTON_RIGHTSHOULDER, // 10 BUTTON_DPAD_UP, BUTTON_DPAD_DOWN, BUTTON_DPAD_LEFT, BUTTON_DPAD_RIGHT, BUTTON_MISC1, BUTTON_PADDLE1, BUTTON_PADDLE2, BUTTON_PADDLE3, BUTTON_PADDLE4, BUTTON_TOUCHPAD, // 20 BUTTON_21, BUTTON_22, BUTTON_23, BUTTON_24, BUTTON_25, BUTTON_26, BUTTON_27, BUTTON_28, BUTTON_29, BUTTON_30, BUTTON_31, NUM_BUTTONS }; static const U16 MAX_AXIS_DEAD_ZONE = 16384; static const U16 MAX_AXIS_OFFSET = 16384; class InputChannel { public: enum Type { TYPE_NONE, TYPE_AXIS, TYPE_BUTTON }; InputChannel() {} InputChannel(Type type, U8 index) : mType(type), mIndex(index) {} InputChannel(Type type, U8 index, S32 sign) : mType(type), mSign(sign), mIndex(index) {} // these methods for readability bool isNone() const { return mType == TYPE_NONE; } bool isAxis() const { return mType == TYPE_AXIS; } bool isButton() const { return mType == TYPE_BUTTON; } bool isEqual(const InputChannel& other) { return mType == other.mType && mSign == other.mSign && mIndex == other.mIndex; } std::string getLocalName() const; // AXIS_0-, AXIS_0+, BUTTON_0, NONE etc. std::string getRemoteName() const; // GAME_CONTROL_AXIS_LEFTX, GAME_CONTROL_BUTTON_A, etc Type mType { TYPE_NONE }; S32 mSign { 0 }; U8 mIndex { 255 }; }; // Options is a data structure for storing device-specific settings class Options { public: struct AxisOptions { S32 mMultiplier = 1; U16 mDeadZone { 0 }; S16 mOffset { 0 }; void resetToDefaults() { mMultiplier = 1; mDeadZone = 0; mOffset = 0; } S16 computeModifiedValue(S16 raw_value) const { S32 new_value = ((S32)raw_value + S32(mOffset)) * mMultiplier; return (S16)(std::clamp(new_value, -32768, 32767)); } std::string saveToString() const; void loadFromString(std::string options); }; Options(); void resetToDefaults(); U8 mapAxis(U8 axis) const; U8 mapButton(U8 button) const; S16 fixAxisValue(U8 axis, S16 value) const; std::string saveToString(const std::string& name, bool force_empty = false) const; bool loadFromString(std::string& name, std::string options); bool loadFromString(std::string options); const std::vector& getAxisOptions() const { return mAxisOptions; } std::vector& getAxisOptions() { return mAxisOptions; } const std::vector& getAxisMap() const { return mAxisMap; } std::vector& getAxisMap() { return mAxisMap; } const std::vector& getButtonMap() const { return mButtonMap; } std::vector& getButtonMap() { return mButtonMap; } private: std::vector mAxisOptions; std::vector mAxisMap; std::vector mButtonMap; }; // State is a minimal class for storing axes and buttons values class State { public: State(); void clear(); bool onButton(U8 button, bool pressed); std::vector mAxes; // [ -32768, 32767 ] std::vector mPrevAxes; // value in last outgoing packet U32 mButtons; }; // Device is a data structure for describing any detected controller class Device { const int mJoystickID { -1 }; const std::string mGUID; const std::string mName; Options mOptions; State mState; public: Device(int joystickID, const std::string& guid, const std::string& name); int getJoystickID() const { return mJoystickID; } std::string getGUID() const { return mGUID; } std::string getName() const { return mName; } const Options& getOptions() const { return mOptions; } const State& getState() const { return mState; } void resetOptionsToDefaults() { mOptions.resetToDefaults(); } std::string saveOptionsToString(bool force_empty = false) const { return mOptions.saveToString(mName, force_empty); } void loadOptionsFromString(const std::string& options) { mOptions.loadFromString(options); } friend class LLGameControllerManager; }; static bool isEnabled(); static void setEnabled(bool enabled); static bool isInitialized(); static void init(const std::string& gamecontrollerdb_path, std::function loadBoolean, std::function saveBoolean, std::function loadString, std::function saveString, std::function loadObject, std::function saveObject, std::function updateUI); static void terminate(); static const std::list& getDevices(); static const std::map& getDeviceOptions(); // returns 'true' if GameControlInput message needs to go out, // which will be the case for new data or resend. Call this right // before deciding to put a GameControlInput packet on the wire // or not. static bool computeFinalStateAndCheckForChanges(); static void clearAllStates(); static void processEvents(bool app_has_focus = true); static const State& getState(); static InputChannel getActiveInputChannel(); static void getFlycamInputs(std::vector& inputs_out); // these methods for accepting input from keyboard static void setSendToServer(bool enable); static void setControlAgent(bool enable); static void setTranslateAgentActions(bool enable); static void setAgentControlMode(AgentControlMode mode); static bool getSendToServer(); static bool getControlAgent(); static bool getTranslateAgentActions(); static AgentControlMode getAgentControlMode(); static ActionNameType getActionNameType(const std::string& action); static bool willControlAvatar(); // Given a name like "AXIS_1-" or "BUTTON_5" returns the corresponding InputChannel // If the axis name lacks the +/- postfix it assumes '+' postfix. static LLGameControl::InputChannel getChannelByName(const std::string& name); // action_name = push+, strafe-, etc static LLGameControl::InputChannel getChannelByAction(const std::string& action); static bool updateActionMap(const std::string& action_name, LLGameControl::InputChannel channel); // Keyboard presses produce action_flags which can be translated into State // and game_control devices produce State which can be translated into action_flags. // These methods help exchange such translations. static U32 computeInternalActionFlags(); static void setExternalInput(U32 action_flags, U32 buttons_from_keys); // call this after putting a GameControlInput packet on the wire static void updateResendPeriod(); using getChannel_t = std::function; static std::string stringifyAnalogMappings(getChannel_t getChannel); static std::string stringifyBinaryMappings(getChannel_t getChannel); static std::string stringifyFlycamMappings(getChannel_t getChannel); static void getDefaultMappings(std::vector>& mappings); static bool parseDeviceOptions(const std::string& options, std::string& name, std::vector& axis_options, std::vector& axis_map, std::vector& button_map); static std::string stringifyDeviceOptions(const std::string& name, const std::vector& axis_options, const std::vector& axis_map, const std::vector& button_map, bool force_empty = false); static void initByDefault(); static void loadFromSettings(); static void saveToSettings(); static void setDeviceOptions(const std::string& guid, const Options& options); };