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path: root/libs/raylib/src/core.c
blob: b3010ce4dbd39c096de4e0c437dc5e710c7c771d (plain)
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/**********************************************************************************************
*
*   raylib.core - Basic functions to manage windows, OpenGL context and input on multiple platforms
*
*   PLATFORMS SUPPORTED:
*       - PLATFORM_DESKTOP: Windows (Win32, Win64)
*       - PLATFORM_DESKTOP: Linux (X11 desktop mode)
*       - PLATFORM_DESKTOP: FreeBSD, OpenBSD, NetBSD, DragonFly (X11 desktop)
*       - PLATFORM_DESKTOP: OSX/macOS
*       - PLATFORM_ANDROID: Android 4.0 (ARM, ARM64)
*       - PLATFORM_RPI:     Raspberry Pi 0,1,2,3,4 (Raspbian)
*       - PLATFORM_WEB:     HTML5 with asm.js (Chrome, Firefox)
*       - PLATFORM_UWP:     Windows 10 App, Windows Phone, Xbox One
*
*   CONFIGURATION:
*
*   #define PLATFORM_DESKTOP
*       Windowing and input system configured for desktop platforms: Windows, Linux, OSX, FreeBSD, OpenBSD, NetBSD, DragonFly
*       NOTE: Oculus Rift CV1 requires PLATFORM_DESKTOP for mirror rendering - View [rlgl] module to enable it
*
*   #define PLATFORM_ANDROID
*       Windowing and input system configured for Android device, app activity managed internally in this module.
*       NOTE: OpenGL ES 2.0 is required and graphic device is managed by EGL
*
*   #define PLATFORM_RPI
*       Windowing and input system configured for Raspberry Pi i native mode (no X.org required, tested on Raspbian),
*       graphic device is managed by EGL and inputs are processed is raw mode, reading from /dev/input/
*
*   #define PLATFORM_WEB
*       Windowing and input system configured for HTML5 (run on browser), code converted from C to asm.js
*       using emscripten compiler. OpenGL ES 2.0 required for direct translation to WebGL equivalent code.
*
*   #define PLATFORM_UWP
*       Universal Windows Platform support, using OpenGL ES 2.0 through ANGLE on multiple Windows platforms,
*       including Windows 10 App, Windows Phone and Xbox One platforms.
*
*   #define SUPPORT_DEFAULT_FONT (default)
*       Default font is loaded on window initialization to be available for the user to render simple text.
*       NOTE: If enabled, uses external module functions to load default raylib font (module: text)
*
*   #define SUPPORT_CAMERA_SYSTEM
*       Camera module is included (camera.h) and multiple predefined cameras are available: free, 1st/3rd person, orbital
*
*   #define SUPPORT_GESTURES_SYSTEM
*       Gestures module is included (gestures.h) to support gestures detection: tap, hold, swipe, drag
*
*   #define SUPPORT_MOUSE_GESTURES
*       Mouse gestures are directly mapped like touches and processed by gestures system.
*
*   #define SUPPORT_TOUCH_AS_MOUSE
*       Touch input and mouse input are shared. Mouse functions also return touch information.
*
*   #define SUPPORT_SSH_KEYBOARD_RPI (Raspberry Pi only)
*       Reconfigure standard input to receive key inputs, works with SSH connection.
*       WARNING: Reconfiguring standard input could lead to undesired effects, like breaking other running processes or
*       blocking the device is not restored properly. Use with care.
*
*   #define SUPPORT_MOUSE_CURSOR_RPI (Raspberry Pi only)
*       Draw a mouse reference on screen (square cursor box)
*
*   #define SUPPORT_BUSY_WAIT_LOOP
*       Use busy wait loop for timing sync, if not defined, a high-resolution timer is setup and used
*
*   #define SUPPORT_HALFBUSY_WAIT_LOOP
*       Use a half-busy wait loop, in this case frame sleeps for some time and runs a busy-wait-loop at the end
*
*   #define SUPPORT_EVENTS_WAITING
*       Wait for events passively (sleeping while no events) instead of polling them actively every frame
*
*   #define SUPPORT_SCREEN_CAPTURE
*       Allow automatic screen capture of current screen pressing F12, defined in KeyCallback()
*
*   #define SUPPORT_GIF_RECORDING
*       Allow automatic gif recording of current screen pressing CTRL+F12, defined in KeyCallback()
*
*   #define SUPPORT_HIGH_DPI
*       Allow scale all the drawn content to match the high-DPI equivalent size (only PLATFORM_DESKTOP)
*       NOTE: This flag is forced on macOS, since most displays are high-DPI
*
*   #define SUPPORT_COMPRESSION_API
*       Support CompressData() and DecompressData() functions, those functions use zlib implementation
*       provided by stb_image and stb_image_write libraries, so, those libraries must be enabled on textures module
*       for linkage
*
*   #define SUPPORT_DATA_STORAGE
*       Support saving binary data automatically to a generated storage.data file. This file is managed internally.
*
*   DEPENDENCIES:
*       rglfw    - Manage graphic device, OpenGL context and inputs on PLATFORM_DESKTOP (Windows, Linux, OSX. FreeBSD, OpenBSD, NetBSD, DragonFly)
*       raymath  - 3D math functionality (Vector2, Vector3, Matrix, Quaternion)
*       camera   - Multiple 3D camera modes (free, orbital, 1st person, 3rd person)
*       gestures - Gestures system for touch-ready devices (or simulated from mouse inputs)
*
*
*   LICENSE: zlib/libpng
*
*   Copyright (c) 2013-2020 Ramon Santamaria (@raysan5)
*
*   This software is provided "as-is", without any express or implied warranty. In no event
*   will the authors be held liable for any damages arising from the use of this software.
*
*   Permission is granted to anyone to use this software for any purpose, including commercial
*   applications, and to alter it and redistribute it freely, subject to the following restrictions:
*
*     1. The origin of this software must not be misrepresented; you must not claim that you
*     wrote the original software. If you use this software in a product, an acknowledgment
*     in the product documentation would be appreciated but is not required.
*
*     2. Altered source versions must be plainly marked as such, and must not be misrepresented
*     as being the original software.
*
*     3. This notice may not be removed or altered from any source distribution.
*
**********************************************************************************************/

#include "raylib.h"             // Declares module functions

// Check if config flags have been externally provided on compilation line
#if !defined(EXTERNAL_CONFIG_FLAGS)
    #include "config.h"         // Defines module configuration flags
#else
    #define RAYLIB_VERSION  "3.0"
#endif

#include "utils.h"              // Required for: TRACELOG macros

#if (defined(__linux__) || defined(PLATFORM_WEB)) && _POSIX_C_SOURCE < 199309L
    #undef _POSIX_C_SOURCE
    #define _POSIX_C_SOURCE 199309L // Required for CLOCK_MONOTONIC if compiled with c99 without gnu ext.
#endif

#define RAYMATH_IMPLEMENTATION  // Define external out-of-line implementation of raymath here
#include "raymath.h"            // Required for: Vector3 and Matrix functions

#define RLGL_IMPLEMENTATION
#include "rlgl.h"               // raylib OpenGL abstraction layer to OpenGL 1.1, 3.3+ or ES2

#if defined(SUPPORT_GESTURES_SYSTEM)
    #define GESTURES_IMPLEMENTATION
    #include "gestures.h"       // Gestures detection functionality
#endif

#if defined(SUPPORT_CAMERA_SYSTEM)
    #define CAMERA_IMPLEMENTATION
    #include "camera.h"         // Camera system functionality
#endif

#if defined(SUPPORT_GIF_RECORDING)
    #define RGIF_MALLOC RL_MALLOC
    #define RGIF_FREE RL_FREE

    #define RGIF_IMPLEMENTATION
    #include "external/rgif.h"  // Support GIF recording
#endif

#if defined(__APPLE__)
    #define SUPPORT_HIGH_DPI    // Force HighDPI support on macOS
#endif

#include <stdlib.h>             // Required for: srand(), rand(), atexit()
#include <stdio.h>              // Required for: sprintf() [Used in OpenURL()]
#include <string.h>             // Required for: strrchr(), strcmp(), strlen()
#include <time.h>               // Required for: time() [Used in InitTimer()]
#include <math.h>               // Required for: tan() [Used in BeginMode3D()]

#include <sys/stat.h>           // Required for: stat() [Used in GetFileModTime()]

#if (defined(PLATFORM_DESKTOP) || defined(PLATFORM_UWP)) && defined(_WIN32) && (defined(_MSC_VER) || defined(__TINYC__))
    #define DIRENT_MALLOC RL_MALLOC
    #define DIRENT_FREE RL_FREE

    #include "external/dirent.h"    // Required for: DIR, opendir(), closedir() [Used in GetDirectoryFiles()]
#else
    #include <dirent.h>             // Required for: DIR, opendir(), closedir() [Used in GetDirectoryFiles()]
#endif

#if defined(_WIN32)
    #include <direct.h>             // Required for: _getch(), _chdir()
    #define GETCWD _getcwd          // NOTE: MSDN recommends not to use getcwd(), chdir()
    #define CHDIR _chdir
    #include <io.h>                 // Required for _access() [Used in FileExists()]
#else
    #include <unistd.h>             // Required for: getch(), chdir() (POSIX), access()
    #define GETCWD getcwd
    #define CHDIR chdir
#endif

#if defined(PLATFORM_DESKTOP)
    #define GLFW_INCLUDE_NONE       // Disable the standard OpenGL header inclusion on GLFW3
                                    // NOTE: Already provided by rlgl implementation (on glad.h)
    #include <GLFW/glfw3.h>         // GLFW3 library: Windows, OpenGL context and Input management
                                    // NOTE: GLFW3 already includes gl.h (OpenGL) headers

    // Support retrieving native window handlers
    #if defined(_WIN32)
        #define GLFW_EXPOSE_NATIVE_WIN32
        #include <GLFW/glfw3native.h>       // WARNING: It requires customization to avoid windows.h inclusion!

        #if !defined(SUPPORT_BUSY_WAIT_LOOP)
            // NOTE: Those functions require linking with winmm library
            unsigned int __stdcall timeBeginPeriod(unsigned int uPeriod);
            unsigned int __stdcall timeEndPeriod(unsigned int uPeriod);
        #endif

    #elif defined(__linux__)
        #include <sys/time.h>           // Required for: timespec, nanosleep(), select() - POSIX

        //#define GLFW_EXPOSE_NATIVE_X11        // WARNING: Exposing Xlib.h > X.h results in dup symbols for Font type
        //#define GLFW_EXPOSE_NATIVE_WAYLAND
        //#define GLFW_EXPOSE_NATIVE_MIR
        #include <GLFW/glfw3native.h>   // Required for: glfwGetX11Window()
    #elif defined(__APPLE__)
        #include <unistd.h>             // Required for: usleep()

        //#define GLFW_EXPOSE_NATIVE_COCOA      // WARNING: Fails due to type redefinition
        #include <GLFW/glfw3native.h>   // Required for: glfwGetCocoaWindow()
    #endif
#endif

#if defined(__linux__)
    #define MAX_FILEPATH_LENGTH    4096     // Use Linux PATH_MAX value
#else
    #define MAX_FILEPATH_LENGTH     512     // Use common value
#endif

#if defined(PLATFORM_ANDROID)
    //#include <android/sensor.h>           // Android sensors functions (accelerometer, gyroscope, light...)
    #include <android/window.h>             // Defines AWINDOW_FLAG_FULLSCREEN and others
    #include <android_native_app_glue.h>    // Defines basic app state struct and manages activity

    #include <EGL/egl.h>            // Khronos EGL library - Native platform display device control functions
    #include <GLES2/gl2.h>          // Khronos OpenGL ES 2.0 library
#endif

#if defined(PLATFORM_RPI)
    #include <fcntl.h>              // POSIX file control definitions - open(), creat(), fcntl()
    #include <unistd.h>             // POSIX standard function definitions - read(), close(), STDIN_FILENO
    #include <termios.h>            // POSIX terminal control definitions - tcgetattr(), tcsetattr()
    #include <pthread.h>            // POSIX threads management (inputs reading)
    #include <dirent.h>             // POSIX directory browsing

    #include <sys/ioctl.h>          // UNIX System call for device-specific input/output operations - ioctl()
    #include <linux/kd.h>           // Linux: KDSKBMODE, K_MEDIUMRAM constants definition
    #include <linux/input.h>        // Linux: Keycodes constants definition (KEY_A, ...)
    #include <linux/joystick.h>     // Linux: Joystick support library

    #include "bcm_host.h"           // Raspberry Pi VideoCore IV access functions

    #include "EGL/egl.h"            // Khronos EGL library - Native platform display device control functions
    #include "EGL/eglext.h"         // Khronos EGL library - Extensions
    #include "GLES2/gl2.h"          // Khronos OpenGL ES 2.0 library
#endif

#if defined(PLATFORM_UWP)
    #include "EGL/egl.h"            // Khronos EGL library - Native platform display device control functions
    #include "EGL/eglext.h"         // Khronos EGL library - Extensions
    #include "GLES2/gl2.h"          // Khronos OpenGL ES 2.0 library
#endif

#if defined(PLATFORM_WEB)
    #define GLFW_INCLUDE_ES2        // GLFW3: Enable OpenGL ES 2.0 (translated to WebGL)
    #include <GLFW/glfw3.h>         // GLFW3 library: Windows, OpenGL context and Input management
    #include <sys/time.h>           // Required for: timespec, nanosleep(), select() - POSIX

    #include <emscripten/emscripten.h>  // Emscripten library - LLVM to JavaScript compiler
    #include <emscripten/html5.h>       // Emscripten HTML5 library
#endif

#if defined(SUPPORT_COMPRESSION_API)
    // NOTE: Those declarations require stb_image and stb_image_write definitions, included in textures module
    unsigned char *stbi_zlib_compress(unsigned char *data, int data_len, int *out_len, int quality);
    char *stbi_zlib_decode_malloc(char const *buffer, int len, int *outlen);
#endif

//----------------------------------------------------------------------------------
// Defines and Macros
//----------------------------------------------------------------------------------
#if defined(PLATFORM_RPI)
    #define USE_LAST_TOUCH_DEVICE       // When multiple touchscreens are connected, only use the one with the highest event<N> number

    // Old device inputs system
    #define DEFAULT_KEYBOARD_DEV      STDIN_FILENO              // Standard input
    #define DEFAULT_GAMEPAD_DEV       "/dev/input/js"           // Gamepad input (base dev for all gamepads: js0, js1, ...)
    #define DEFAULT_EVDEV_PATH        "/dev/input/"             // Path to the linux input events

    // New device input events (evdev) (must be detected)
    //#define DEFAULT_KEYBOARD_DEV    "/dev/input/eventN"
    //#define DEFAULT_MOUSE_DEV       "/dev/input/eventN"
    //#define DEFAULT_GAMEPAD_DEV     "/dev/input/eventN"

    #define MOUSE_SENSITIVITY         0.8f
#endif

#define MAX_GAMEPADS              4         // Max number of gamepads supported
#define MAX_GAMEPAD_AXIS          8         // Max number of axis supported (per gamepad)
#define MAX_GAMEPAD_BUTTONS       32        // Max bumber of buttons supported (per gamepad)

#define MAX_CHARS_QUEUE           16        // Max number of characters in the input queue

#if defined(SUPPORT_DATA_STORAGE)
    #define STORAGE_DATA_FILE     "storage.data"
#endif

//----------------------------------------------------------------------------------
// Types and Structures Definition
//----------------------------------------------------------------------------------
#if defined(PLATFORM_RPI)
typedef struct {
    pthread_t threadId;             // Event reading thread id
    int fd;                         // File descriptor to the device it is assigned to
    int eventNum;                   // Number of 'event<N>' device
    Rectangle absRange;             // Range of values for absolute pointing devices (touchscreens)
    int touchSlot;                  // Hold the touch slot number of the currently being sent multitouch block
    bool isMouse;                   // True if device supports relative X Y movements
    bool isTouch;                   // True if device supports absolute X Y movements and has BTN_TOUCH
    bool isMultitouch;              // True if device supports multiple absolute movevents and has BTN_TOUCH
    bool isKeyboard;                // True if device has letter keycodes
    bool isGamepad;                 // True if device has gamepad buttons
} InputEventWorker;

typedef struct {
    int contents[8];                // Key events FIFO contents (8 positions)
    char head;                      // Key events FIFO head position
    char tail;                      // Key events FIFO tail position
} KeyEventFifo;
#endif

typedef struct { int x; int y; } Point;
typedef struct { unsigned int width; unsigned int height; } Size;

#if defined(PLATFORM_UWP)
extern EGLNativeWindowType handle;          // Native window handler for UWP (external, defined in UWP App)
#endif

// Core global state context data
typedef struct CoreData {
    struct {
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
        GLFWwindow *handle;                 // Native window handle (graphic device)
#endif
#if defined(PLATFORM_RPI)
        // NOTE: RPI4 does not support Dispmanx anymore, system should be redesigned
        EGL_DISPMANX_WINDOW_T handle;       // Native window handle (graphic device)
#endif
#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI) || defined(PLATFORM_UWP)
        EGLDisplay device;                  // Native display device (physical screen connection)
        EGLSurface surface;                 // Surface to draw on, framebuffers (connected to context)
        EGLContext context;                 // Graphic context, mode in which drawing can be done
        EGLConfig config;                   // Graphic config
#endif
        unsigned int flags;                 // Configuration flags (bit based)
        const char *title;                  // Window text title const pointer
        bool ready;                         // Flag to check if window has been initialized successfully
        bool minimized;                     // Flag to check if window has been minimized
        bool resized;                       // Flag to check if window has been resized
        bool fullscreen;                    // Flag to check if fullscreen mode required
        bool alwaysRun;                     // Flag to keep window update/draw running on minimized
        bool shouldClose;                   // Flag to set window for closing

        Point position;                     // Window position on screen (required on fullscreen toggle)
        Size display;                       // Display width and height (monitor, device-screen, LCD, ...)
        Size screen;                        // Screen width and height (used render area)
        Size currentFbo;                    // Current render width and height, it could change on BeginTextureMode()
        Size render;                        // Framebuffer width and height (render area, including black bars if required)
        Point renderOffset;                 // Offset from render area (must be divided by 2)
        Matrix screenScale;                 // Matrix to scale screen (framebuffer rendering)

        char **dropFilesPath;               // Store dropped files paths as strings
        int dropFilesCount;                 // Count dropped files strings

    } Window;
#if defined(PLATFORM_ANDROID)
    struct {
        bool appEnabled;                    // Flag to detect if app is active ** = true
        struct android_app *app;            // Android activity
        struct android_poll_source *source; // Android events polling source
        const char *internalDataPath;       // Android internal data path to write data (/data/data/<package>/files)
        bool contextRebindRequired;         // Used to know context rebind required
    } Android;
#endif
    struct {
#if defined(PLATFORM_RPI)
        InputEventWorker eventWorker[10];   // List of worker threads for every monitored "/dev/input/event<N>"
#endif
        struct {
            int exitKey;                    // Default exit key
            char currentKeyState[512];      // Registers current frame key state
            char previousKeyState[512];     // Registers previous frame key state

            int keyPressedQueue[MAX_CHARS_QUEUE]; // Input characters queue
            int keyPressedQueueCount;             // Input characters queue count
#if defined(PLATFORM_RPI)
            int defaultMode;                // Default keyboard mode
            struct termios defaultSettings; // Default keyboard settings
            KeyEventFifo lastKeyPressed;    // Buffer for holding keydown events as they arrive (Needed due to multitreading of event workers)
#endif
        } Keyboard;
        struct {
            Vector2 position;               // Mouse position on screen
            Vector2 offset;                 // Mouse offset
            Vector2 scale;                  // Mouse scaling

            bool cursorHidden;              // Track if cursor is hidden
            bool cursorOnScreen;            // Tracks if cursor is inside client area
#if defined(PLATFORM_WEB)
            bool cursorLockRequired;        // Ask for cursor pointer lock on next click
#endif
            char currentButtonState[3];     // Registers current mouse button state
            char previousButtonState[3];    // Registers previous mouse button state
            int currentWheelMove;           // Registers current mouse wheel variation
            int previousWheelMove;          // Registers previous mouse wheel variation
#if defined(PLATFORM_RPI)
            char currentButtonStateEvdev[3];    // Holds the new mouse state for the next polling event to grab (Can't be written directly due to multithreading, app could miss the update)
#endif
        } Mouse;
        struct {
            Vector2 position[MAX_TOUCH_POINTS];         // Touch position on screen
            char currentTouchState[MAX_TOUCH_POINTS];   // Registers current touch state
            char previousTouchState[MAX_TOUCH_POINTS];  // Registers previous touch state
        } Touch;
        struct {
            int lastButtonPressed;          // Register last gamepad button pressed
            int axisCount;                  // Register number of available gamepad axis
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_RPI) || defined(PLATFORM_WEB) || defined(PLATFORM_UWP)
            bool ready[MAX_GAMEPADS];       // Flag to know if gamepad is ready
            float axisState[MAX_GAMEPADS][MAX_GAMEPAD_AXIS];        // Gamepad axis state
            char currentState[MAX_GAMEPADS][MAX_GAMEPAD_BUTTONS];   // Current gamepad buttons state
            char previousState[MAX_GAMEPADS][MAX_GAMEPAD_BUTTONS];  // Previous gamepad buttons state
#endif
#if defined(PLATFORM_RPI)
            pthread_t threadId;             // Gamepad reading thread id
            int streamId[MAX_GAMEPADS];     // Gamepad device file descriptor
            char name[64];                  // Gamepad name holder
#endif
        } Gamepad;
    } Input;
    struct {
        double current;                     // Current time measure
        double previous;                    // Previous time measure
        double update;                      // Time measure for frame update
        double draw;                        // Time measure for frame draw
        double frame;                       // Time measure for one frame
        double target;                      // Desired time for one frame, if 0 not applied
#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI) || defined(PLATFORM_UWP)
        unsigned long long base;            // Base time measure for hi-res timer
#endif
    } Time;
} CoreData;

//----------------------------------------------------------------------------------
// Global Variables Definition
//----------------------------------------------------------------------------------
static CoreData CORE = { 0 };               // Global CORE state context

static char **dirFilesPath = NULL;          // Store directory files paths as strings
static int dirFilesCount = 0;               // Count directory files strings

#if defined(SUPPORT_SCREEN_CAPTURE)
static int screenshotCounter = 0;           // Screenshots counter
#endif

#if defined(SUPPORT_GIF_RECORDING)
static int gifFramesCounter = 0;            // GIF frames counter
static bool gifRecording = false;           // GIF recording state
#endif
//-----------------------------------------------------------------------------------

//----------------------------------------------------------------------------------
// Other Modules Functions Declaration (required by core)
//----------------------------------------------------------------------------------
#if defined(SUPPORT_DEFAULT_FONT)
extern void LoadFontDefault(void);          // [Module: text] Loads default font on InitWindow()
extern void UnloadFontDefault(void);        // [Module: text] Unloads default font from GPU memory
#endif

//----------------------------------------------------------------------------------
// Module specific Functions Declaration
//----------------------------------------------------------------------------------
static bool InitGraphicsDevice(int width, int height);  // Initialize graphics device
static void SetupFramebuffer(int width, int height);    // Setup main framebuffer
static void SetupViewport(int width, int height);       // Set viewport for a provided width and height
static void SwapBuffers(void);                          // Copy back buffer to front buffers

static void InitTimer(void);                            // Initialize timer
static void Wait(float ms);                             // Wait for some milliseconds (stop program execution)

static int GetGamepadButton(int button);                // Get gamepad button generic to all platforms
static int GetGamepadAxis(int axis);                    // Get gamepad axis generic to all platforms
static void PollInputEvents(void);                      // Register user events

#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
static void ErrorCallback(int error, const char *description);                             // GLFW3 Error Callback, runs on GLFW3 error
static void KeyCallback(GLFWwindow *window, int key, int scancode, int action, int mods);  // GLFW3 Keyboard Callback, runs on key pressed
static void MouseButtonCallback(GLFWwindow *window, int button, int action, int mods);     // GLFW3 Mouse Button Callback, runs on mouse button pressed
static void MouseCursorPosCallback(GLFWwindow *window, double x, double y);                // GLFW3 Cursor Position Callback, runs on mouse move
static void CharCallback(GLFWwindow *window, unsigned int key);                            // GLFW3 Char Key Callback, runs on key pressed (get char value)
static void ScrollCallback(GLFWwindow *window, double xoffset, double yoffset);            // GLFW3 Srolling Callback, runs on mouse wheel
static void CursorEnterCallback(GLFWwindow *window, int enter);                            // GLFW3 Cursor Enter Callback, cursor enters client area
static void WindowSizeCallback(GLFWwindow *window, int width, int height);                 // GLFW3 WindowSize Callback, runs when window is resized
static void WindowIconifyCallback(GLFWwindow *window, int iconified);                      // GLFW3 WindowIconify Callback, runs when window is minimized/restored
static void WindowDropCallback(GLFWwindow *window, int count, const char **paths);         // GLFW3 Window Drop Callback, runs when drop files into window
#endif

#if defined(PLATFORM_ANDROID)
static void AndroidCommandCallback(struct android_app *app, int32_t cmd);                  // Process Android activity lifecycle commands
static int32_t AndroidInputCallback(struct android_app *app, AInputEvent *event);          // Process Android inputs
#endif

#if defined(PLATFORM_WEB)
static EM_BOOL EmscriptenFullscreenChangeCallback(int eventType, const EmscriptenFullscreenChangeEvent *event, void *userData);
static EM_BOOL EmscriptenKeyboardCallback(int eventType, const EmscriptenKeyboardEvent *keyEvent, void *userData);
static EM_BOOL EmscriptenMouseCallback(int eventType, const EmscriptenMouseEvent *mouseEvent, void *userData);
static EM_BOOL EmscriptenTouchCallback(int eventType, const EmscriptenTouchEvent *touchEvent, void *userData);
static EM_BOOL EmscriptenGamepadCallback(int eventType, const EmscriptenGamepadEvent *gamepadEvent, void *userData);
#endif

#if defined(PLATFORM_RPI)
#if defined(SUPPORT_SSH_KEYBOARD_RPI)
static void InitKeyboard(void);                         // Init raw keyboard system (standard input reading)
static void ProcessKeyboard(void);                      // Process keyboard events
static void RestoreKeyboard(void);                      // Restore keyboard system
#else
static void InitTerminal(void);                         // Init terminal (block echo and signal short cuts)
static void RestoreTerminal(void);                      // Restore terminal
#endif

static void InitEvdevInput(void);                       // Evdev inputs initialization
static void EventThreadSpawn(char *device);             // Identifies a input device and spawns a thread to handle it if needed
static void *EventThread(void *arg);                    // Input device events reading thread

static void InitGamepad(void);                          // Init raw gamepad input
static void *GamepadThread(void *arg);                  // Mouse reading thread
#endif  // PLATFORM_RPI

#if defined(_WIN32)
    // NOTE: We include Sleep() function signature here to avoid windows.h inclusion
    void __stdcall Sleep(unsigned long msTimeout);      // Required for Wait()
#endif

//----------------------------------------------------------------------------------
// Module Functions Definition - Window and OpenGL Context Functions
//----------------------------------------------------------------------------------

#if defined(PLATFORM_ANDROID)
// To allow easier porting to android, we allow the user to define a
// main function which we call from android_main, defined by ourselves
extern int main(int argc, char *argv[]);

void android_main(struct android_app *app)
{
    char arg0[] = "raylib";     // NOTE: argv[] are mutable
    CORE.Android.app = app;

    // TODO: Should we maybe report != 0 return codes somewhere?
    (void)main(1, (char *[]) { arg0, NULL });
}

// TODO: Add this to header (if apps really need it)
struct android_app *GetAndroidApp(void)
{
    return CORE.Android.app;
}
#endif
#if defined(PLATFORM_RPI) && !defined(SUPPORT_SSH_KEYBOARD_RPI)
// Init terminal (block echo and signal short cuts)
static void InitTerminal(void)
{
    TRACELOG(LOG_INFO, "RPI: Reconfiguring terminal...");

    // Save terminal keyboard settings and reconfigure terminal with new settings
    struct termios keyboardNewSettings;
    tcgetattr(STDIN_FILENO, &CORE.Input.Keyboard.defaultSettings);    // Get current keyboard settings
    keyboardNewSettings = CORE.Input.Keyboard.defaultSettings;

    // New terminal settings for keyboard: turn off buffering (non-canonical mode), echo
    // NOTE: ISIG controls if ^C and ^Z generate break signals or not
    keyboardNewSettings.c_lflag &= ~(ICANON | ECHO | ISIG);
    keyboardNewSettings.c_cc[VMIN] = 1;
    keyboardNewSettings.c_cc[VTIME] = 0;

    // Set new keyboard settings (change occurs immediately)
    tcsetattr(STDIN_FILENO, TCSANOW, &keyboardNewSettings);

    // Save old keyboard mode to restore it at the end
    if (ioctl(STDIN_FILENO, KDGKBMODE, &CORE.Input.Keyboard.defaultMode) < 0)
    {
        // NOTE: It could mean we are using a remote keyboard through ssh or from the desktop
        TRACELOG(LOG_WARNING, "RPI: Failed to change keyboard mode (not a local terminal)");
    }
    else ioctl(STDIN_FILENO, KDSKBMODE, K_XLATE);

    // Register terminal restore when program finishes
    atexit(RestoreTerminal);
}
// Restore terminal
static void RestoreTerminal(void)
{
    TRACELOG(LOG_INFO, "RPI: Restoring terminal...");

    // Reset to default keyboard settings
    tcsetattr(STDIN_FILENO, TCSANOW, &CORE.Input.Keyboard.defaultSettings);

    // Reconfigure keyboard to default mode
    ioctl(STDIN_FILENO, KDSKBMODE, CORE.Input.Keyboard.defaultMode);
}
#endif
// Initialize window and OpenGL context
// NOTE: data parameter could be used to pass any kind of required data to the initialization
void InitWindow(int width, int height, const char *title)
{
    TRACELOG(LOG_INFO, "Initializing raylib %s", RAYLIB_VERSION);

    CORE.Window.title = title;

    // Initialize required global values different than 0
    CORE.Input.Keyboard.exitKey = KEY_ESCAPE;
    CORE.Input.Mouse.scale = (Vector2){ 1.0f, 1.0f };
    CORE.Input.Gamepad.lastButtonPressed = -1;

#if defined(PLATFORM_ANDROID)
    CORE.Window.screen.width = width;
    CORE.Window.screen.height = height;
    CORE.Window.currentFbo.width = width;
    CORE.Window.currentFbo.height = height;

    // Input data is android app pointer
    CORE.Android.internalDataPath = CORE.Android.app->activity->internalDataPath;

    // Set desired windows flags before initializing anything
    ANativeActivity_setWindowFlags(CORE.Android.app->activity, AWINDOW_FLAG_FULLSCREEN, 0);  //AWINDOW_FLAG_SCALED, AWINDOW_FLAG_DITHER

    int orientation = AConfiguration_getOrientation(CORE.Android.app->config);

    if (orientation == ACONFIGURATION_ORIENTATION_PORT) TRACELOG(LOG_INFO, "ANDROID: Window orientation set as portrait");
    else if (orientation == ACONFIGURATION_ORIENTATION_LAND) TRACELOG(LOG_INFO, "ANDROID: Window orientation set as landscape");

    // TODO: Automatic orientation doesn't seem to work
    if (width <= height)
    {
        AConfiguration_setOrientation(CORE.Android.app->config, ACONFIGURATION_ORIENTATION_PORT);
        TRACELOG(LOG_WARNING, "ANDROID: Window orientation changed to portrait");
    }
    else
    {
        AConfiguration_setOrientation(CORE.Android.app->config, ACONFIGURATION_ORIENTATION_LAND);
        TRACELOG(LOG_WARNING, "ANDROID: Window orientation changed to landscape");
    }

    //AConfiguration_getDensity(CORE.Android.app->config);
    //AConfiguration_getKeyboard(CORE.Android.app->config);
    //AConfiguration_getScreenSize(CORE.Android.app->config);
    //AConfiguration_getScreenLong(CORE.Android.app->config);

    CORE.Android.app->onAppCmd = AndroidCommandCallback;
    CORE.Android.app->onInputEvent = AndroidInputCallback;

    InitAssetManager(CORE.Android.app->activity->assetManager, CORE.Android.app->activity->internalDataPath);

    TRACELOG(LOG_INFO, "ANDROID: App initialized successfully");

    // Android ALooper_pollAll() variables
    int pollResult = 0;
    int pollEvents = 0;

    // Wait for window to be initialized (display and context)
    while (!CORE.Window.ready)
    {
        // Process events loop
        while ((pollResult = ALooper_pollAll(0, NULL, &pollEvents, (void**)&CORE.Android.source)) >= 0)
        {
            // Process this event
            if (CORE.Android.source != NULL) CORE.Android.source->process(CORE.Android.app, CORE.Android.source);

            // NOTE: Never close window, native activity is controlled by the system!
            //if (CORE.Android.app->destroyRequested != 0) CORE.Window.shouldClose = true;
        }
    }
#else
    // Init graphics device (display device and OpenGL context)
    // NOTE: returns true if window and graphic device has been initialized successfully
    CORE.Window.ready = InitGraphicsDevice(width, height);
    if (!CORE.Window.ready) return;

    // Init hi-res timer
    InitTimer();

#if defined(SUPPORT_DEFAULT_FONT)
    // Load default font
    // NOTE: External functions (defined in module: text)
    LoadFontDefault();
    Rectangle rec = GetFontDefault().recs[95];
    // NOTE: We setup a 1px padding on char rectangle to avoid pixel bleeding on MSAA filtering
    SetShapesTexture(GetFontDefault().texture, (Rectangle){ rec.x + 1, rec.y + 1, rec.width - 2, rec.height - 2 });
#endif
#if defined(PLATFORM_DESKTOP) && defined(SUPPORT_HIGH_DPI)
    // Set default font texture filter for HighDPI (blurry)
    SetTextureFilter(GetFontDefault().texture, FILTER_BILINEAR);
#endif

#if defined(PLATFORM_RPI)
    // Init raw input system
    InitEvdevInput();   // Evdev inputs initialization
    InitGamepad();      // Gamepad init
#if defined(SUPPORT_SSH_KEYBOARD_RPI)
    InitKeyboard();     // Keyboard init
#else
    InitTerminal();     // Terminal init
#endif
#endif

#if defined(PLATFORM_WEB)
    // Detect fullscreen change events
    emscripten_set_fullscreenchange_callback("#canvas", NULL, 1, EmscriptenFullscreenChangeCallback);

    // Support keyboard events
    emscripten_set_keypress_callback("#canvas", NULL, 1, EmscriptenKeyboardCallback);

    // Support mouse events
    emscripten_set_click_callback("#canvas", NULL, 1, EmscriptenMouseCallback);

    // Support touch events
    emscripten_set_touchstart_callback("#canvas", NULL, 1, EmscriptenTouchCallback);
    emscripten_set_touchend_callback("#canvas", NULL, 1, EmscriptenTouchCallback);
    emscripten_set_touchmove_callback("#canvas", NULL, 1, EmscriptenTouchCallback);
    emscripten_set_touchcancel_callback("#canvas", NULL, 1, EmscriptenTouchCallback);

    // Support gamepad events (not provided by GLFW3 on emscripten)
    emscripten_set_gamepadconnected_callback(NULL, 1, EmscriptenGamepadCallback);
    emscripten_set_gamepaddisconnected_callback(NULL, 1, EmscriptenGamepadCallback);
#endif

    CORE.Input.Mouse.position.x = (float)CORE.Window.screen.width/2.0f;
    CORE.Input.Mouse.position.y = (float)CORE.Window.screen.height/2.0f;
#endif        // PLATFORM_ANDROID
}

// Close window and unload OpenGL context
void CloseWindow(void)
{
#if defined(SUPPORT_GIF_RECORDING)
    if (gifRecording)
    {
        GifEnd();
        gifRecording = false;
    }
#endif

#if defined(SUPPORT_DEFAULT_FONT)
    UnloadFontDefault();
#endif

    rlglClose();                // De-init rlgl

#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
    glfwDestroyWindow(CORE.Window.handle);
    glfwTerminate();
#endif

#if !defined(SUPPORT_BUSY_WAIT_LOOP) && defined(_WIN32)
    timeEndPeriod(1);           // Restore time period
#endif

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI) || defined(PLATFORM_UWP)
    // Close surface, context and display
    if (CORE.Window.device != EGL_NO_DISPLAY)
    {
        eglMakeCurrent(CORE.Window.device, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT);

        if (CORE.Window.surface != EGL_NO_SURFACE)
        {
            eglDestroySurface(CORE.Window.device, CORE.Window.surface);
            CORE.Window.surface = EGL_NO_SURFACE;
        }

        if (CORE.Window.context != EGL_NO_CONTEXT)
        {
            eglDestroyContext(CORE.Window.device, CORE.Window.context);
            CORE.Window.context = EGL_NO_CONTEXT;
        }

        eglTerminate(CORE.Window.device);
        CORE.Window.device = EGL_NO_DISPLAY;
    }
#endif

#if defined(PLATFORM_RPI)
    // Wait for mouse and gamepad threads to finish before closing
    // NOTE: Those threads should already have finished at this point
    // because they are controlled by CORE.Window.shouldClose variable

    CORE.Window.shouldClose = true;   // Added to force threads to exit when the close window is called

    for (int i = 0; i < sizeof(CORE.Input.eventWorker)/sizeof(InputEventWorker); ++i)
    {
        if (CORE.Input.eventWorker[i].threadId)
        {
            pthread_join(CORE.Input.eventWorker[i].threadId, NULL);
        }
    }

    if (CORE.Input.Gamepad.threadId) pthread_join(CORE.Input.Gamepad.threadId, NULL);
#endif

    TRACELOG(LOG_INFO, "Window closed successfully");
}

// Check if window has been initialized successfully
bool IsWindowReady(void)
{
    return CORE.Window.ready;
}

// Check if KEY_ESCAPE pressed or Close icon pressed
bool WindowShouldClose(void)
{
#if defined(PLATFORM_WEB)
    // Emterpreter-Async required to run sync code
    // https://github.com/emscripten-core/emscripten/wiki/Emterpreter#emterpreter-async-run-synchronous-code
    // By default, this function is never called on a web-ready raylib example because we encapsulate
    // frame code in a UpdateDrawFrame() function, to allow browser manage execution asynchronously
    // but now emscripten allows sync code to be executed in an interpreted way, using emterpreter!
    emscripten_sleep(16);
    return false;
#endif

#if defined(PLATFORM_DESKTOP)
    if (CORE.Window.ready)
    {
        // While window minimized, stop loop execution
        while (!CORE.Window.alwaysRun && CORE.Window.minimized) glfwWaitEvents();

        CORE.Window.shouldClose = glfwWindowShouldClose(CORE.Window.handle);

        return CORE.Window.shouldClose;
    }
    else return true;
#endif

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI) || defined(PLATFORM_UWP)
    if (CORE.Window.ready) return CORE.Window.shouldClose;
    else return true;
#endif
}

// Check if window has been minimized (or lost focus)
bool IsWindowMinimized(void)
{
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB) || defined(PLATFORM_UWP)
    return CORE.Window.minimized;
#else
    return false;
#endif
}

// Check if window has been resized
bool IsWindowResized(void)
{
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB) || defined(PLATFORM_UWP)
    return CORE.Window.resized;
#else
    return false;
#endif
}

// Check if window is currently hidden
bool IsWindowHidden(void)
{
#if defined(PLATFORM_DESKTOP)
    return (glfwGetWindowAttrib(CORE.Window.handle, GLFW_VISIBLE) == GL_FALSE);
#endif
    return false;
}

// Check if window is currently fullscreen
bool IsWindowFullscreen(void)
{
    return CORE.Window.fullscreen;
}

// Toggle fullscreen mode (only PLATFORM_DESKTOP)
void ToggleFullscreen(void)
{
    CORE.Window.fullscreen = !CORE.Window.fullscreen;          // Toggle fullscreen flag

#if defined(PLATFORM_DESKTOP)
    // NOTE: glfwSetWindowMonitor() doesn't work properly (bugs)
    if (CORE.Window.fullscreen)
    {
        // Store previous window position (in case we exit fullscreen)
        glfwGetWindowPos(CORE.Window.handle, &CORE.Window.position.x, &CORE.Window.position.y);

        GLFWmonitor *monitor = glfwGetPrimaryMonitor();
        if (!monitor)
        {
            TRACELOG(LOG_WARNING, "GLFW: Failed to get monitor");
            glfwSetWindowMonitor(CORE.Window.handle, glfwGetPrimaryMonitor(), 0, 0, CORE.Window.screen.width, CORE.Window.screen.height, GLFW_DONT_CARE);
            return;
        }

        const GLFWvidmode *mode = glfwGetVideoMode(monitor);
        glfwSetWindowMonitor(CORE.Window.handle, glfwGetPrimaryMonitor(), 0, 0, CORE.Window.screen.width, CORE.Window.screen.height, mode->refreshRate);

        // Try to enable GPU V-Sync, so frames are limited to screen refresh rate (60Hz -> 60 FPS)
        // NOTE: V-Sync can be enabled by graphic driver configuration
        if (CORE.Window.flags & FLAG_VSYNC_HINT) glfwSwapInterval(1);
    }
    else glfwSetWindowMonitor(CORE.Window.handle, NULL, CORE.Window.position.x, CORE.Window.position.y, CORE.Window.screen.width, CORE.Window.screen.height, GLFW_DONT_CARE);
#endif
#if defined(PLATFORM_WEB)
    if (CORE.Window.fullscreen) EM_ASM(Module.requestFullscreen(false, false););
    else EM_ASM(document.exitFullscreen(););
#endif
#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI)
    TRACELOG(LOG_WARNING, "SYSTEM: Failed to toggle to windowed mode");
#endif
}

// Set icon for window (only PLATFORM_DESKTOP)
// NOTE: Image must be in RGBA format, 8bit per channel
void SetWindowIcon(Image image)
{
#if defined(PLATFORM_DESKTOP)
    if (image.format == UNCOMPRESSED_R8G8B8A8)
    {
        GLFWimage icon[1] = { 0 };

        icon[0].width = image.width;
        icon[0].height = image.height;
        icon[0].pixels = (unsigned char *)image.data;

        // NOTE 1: We only support one image icon
        // NOTE 2: The specified image data is copied before this function returns
        glfwSetWindowIcon(CORE.Window.handle, 1, icon);
    }
    else TRACELOG(LOG_WARNING, "GLFW: Window icon image must be in R8G8B8A8 pixel format");
#endif
}

// Set title for window (only PLATFORM_DESKTOP)
void SetWindowTitle(const char *title)
{
    CORE.Window.title = title;
#if defined(PLATFORM_DESKTOP)
    glfwSetWindowTitle(CORE.Window.handle, title);
#endif
}

// Set window position on screen (windowed mode)
void SetWindowPosition(int x, int y)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetWindowPos(CORE.Window.handle, x, y);
#endif
}

// Set monitor for the current window (fullscreen mode)
void SetWindowMonitor(int monitor)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount = 0;
    GLFWmonitor **monitors = glfwGetMonitors(&monitorCount);

    if ((monitor >= 0) && (monitor < monitorCount))
    {
        TRACELOG(LOG_INFO, "GLFW: Selected fullscreen monitor: [%i] %s", monitor, glfwGetMonitorName(monitors[monitor]));

        const GLFWvidmode *mode = glfwGetVideoMode(monitors[monitor]);
        glfwSetWindowMonitor(CORE.Window.handle, monitors[monitor], 0, 0, mode->width, mode->height, mode->refreshRate);
    }
    else TRACELOG(LOG_WARNING, "GLFW: Failed to find selected monitor");
#endif
}

// Set window minimum dimensions (FLAG_WINDOW_RESIZABLE)
void SetWindowMinSize(int width, int height)
{
#if defined(PLATFORM_DESKTOP)
    const GLFWvidmode *mode = glfwGetVideoMode(glfwGetPrimaryMonitor());
    glfwSetWindowSizeLimits(CORE.Window.handle, width, height, mode->width, mode->height);
#endif
}

// Set window dimensions
// TODO: Issues on HighDPI scaling
void SetWindowSize(int width, int height)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetWindowSize(CORE.Window.handle, width, height);
#endif
#if defined(PLATFORM_WEB)
    emscripten_set_canvas_size(width, height);  // DEPRECATED!

    // TODO: Below functions should be used to replace previous one but
    // they do not seem to work properly
    //emscripten_set_canvas_element_size("canvas", width, height);
    //emscripten_set_element_css_size("canvas", width, height);
#endif
}

// Show the window
void UnhideWindow(void)
{
#if defined(PLATFORM_DESKTOP)
    glfwShowWindow(CORE.Window.handle);
#endif
}

// Hide the window
void HideWindow(void)
{
#if defined(PLATFORM_DESKTOP)
    glfwHideWindow(CORE.Window.handle);
#endif
}

// Get current screen width
int GetScreenWidth(void)
{
    return CORE.Window.screen.width;
}

// Get current screen height
int GetScreenHeight(void)
{
    return CORE.Window.screen.height;
}

// Get native window handle
void *GetWindowHandle(void)
{
#if defined(PLATFORM_DESKTOP) && defined(_WIN32)
    // NOTE: Returned handle is: void *HWND (windows.h)
    return glfwGetWin32Window(CORE.Window.handle);
#elif defined(__linux__)
    // NOTE: Returned handle is: unsigned long Window (X.h)
    // typedef unsigned long XID;
    // typedef XID Window;
    //unsigned long id = (unsigned long)glfwGetX11Window(window);
    return NULL;    // TODO: Find a way to return value... cast to void *?
#elif defined(__APPLE__)
    // NOTE: Returned handle is: (objc_object *)
    return NULL;    // TODO: return (void *)glfwGetCocoaWindow(window);
#else
    return NULL;
#endif
}

// Get number of monitors
int GetMonitorCount(void)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount;
    glfwGetMonitors(&monitorCount);
    return monitorCount;
#else
    return 1;
#endif
}

// Get primary monitor width
int GetMonitorWidth(int monitor)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount;
    GLFWmonitor **monitors = glfwGetMonitors(&monitorCount);

    if ((monitor >= 0) && (monitor < monitorCount))
    {
        const GLFWvidmode *mode = glfwGetVideoMode(monitors[monitor]);
        return mode->width;
    }
    else TRACELOG(LOG_WARNING, "GLFW: Failed to find selected monitor");
#endif
    return 0;
}

// Get primary monitor width
int GetMonitorHeight(int monitor)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount;
    GLFWmonitor **monitors = glfwGetMonitors(&monitorCount);

    if ((monitor >= 0) && (monitor < monitorCount))
    {
        const GLFWvidmode *mode = glfwGetVideoMode(monitors[monitor]);
        return mode->height;
    }
    else TRACELOG(LOG_WARNING, "GLFW: Failed to find selected monitor");
#endif
    return 0;
}

// Get primary montior physical width in millimetres
int GetMonitorPhysicalWidth(int monitor)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount;
    GLFWmonitor **monitors = glfwGetMonitors(&monitorCount);

    if ((monitor >= 0) && (monitor < monitorCount))
    {
        int physicalWidth;
        glfwGetMonitorPhysicalSize(monitors[monitor], &physicalWidth, NULL);
        return physicalWidth;
    }
    else TRACELOG(LOG_WARNING, "GLFW: Failed to find selected monitor");
#endif
    return 0;
}

// Get primary monitor physical height in millimetres
int GetMonitorPhysicalHeight(int monitor)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount;
    GLFWmonitor **monitors = glfwGetMonitors(&monitorCount);

    if ((monitor >= 0) && (monitor < monitorCount))
    {
        int physicalHeight;
        glfwGetMonitorPhysicalSize(monitors[monitor], NULL, &physicalHeight);
        return physicalHeight;
    }
    else TRACELOG(LOG_WARNING, "GLFW: Failed to find selected monitor");
#endif
    return 0;
}

// Get window position XY on monitor
Vector2 GetWindowPosition(void)
{
    int x = 0;
    int y = 0;
#if defined(PLATFORM_DESKTOP)
    glfwGetWindowPos(CORE.Window.handle, &x, &y);
#endif
    return (Vector2){ (float)x, (float)y };
}

// Get the human-readable, UTF-8 encoded name of the primary monitor
const char *GetMonitorName(int monitor)
{
#if defined(PLATFORM_DESKTOP)
    int monitorCount;
    GLFWmonitor **monitors = glfwGetMonitors(&monitorCount);

    if ((monitor >= 0) && (monitor < monitorCount))
    {
        return glfwGetMonitorName(monitors[monitor]);
    }
    else TRACELOG(LOG_WARNING, "GLFW: Failed to find selected monitor");
#endif
    return "";
}

// Get clipboard text content
// NOTE: returned string is allocated and freed by GLFW
const char *GetClipboardText(void)
{
#if defined(PLATFORM_DESKTOP)
    return glfwGetClipboardString(CORE.Window.handle);
#else
    return NULL;
#endif
}

// Set clipboard text content
void SetClipboardText(const char *text)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetClipboardString(CORE.Window.handle, text);
#endif
}

// Show mouse cursor
void ShowCursor(void)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetInputMode(CORE.Window.handle, GLFW_CURSOR, GLFW_CURSOR_NORMAL);
#endif
#if defined(PLATFORM_UWP)
    UWPMessage *msg = CreateUWPMessage();
    msg->type = UWP_MSG_SHOW_MOUSE;
    SendMessageToUWP(msg);
#endif
    CORE.Input.Mouse.cursorHidden = false;
}

// Hides mouse cursor
void HideCursor(void)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetInputMode(CORE.Window.handle, GLFW_CURSOR, GLFW_CURSOR_HIDDEN);
#endif
#if defined(PLATFORM_UWP)
    UWPMessage *msg = CreateUWPMessage();
    msg->type = UWP_MSG_HIDE_MOUSE;
    SendMessageToUWP(msg);
#endif
    CORE.Input.Mouse.cursorHidden = true;
}

// Check if cursor is not visible
bool IsCursorHidden(void)
{
    return CORE.Input.Mouse.cursorHidden;
}

// Enables cursor (unlock cursor)
void EnableCursor(void)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetInputMode(CORE.Window.handle, GLFW_CURSOR, GLFW_CURSOR_NORMAL);
#endif
#if defined(PLATFORM_WEB)
    CORE.Input.Mouse.cursorLockRequired = true;
#endif
#if defined(PLATFORM_UWP)
    UWPMessage *msg = CreateUWPMessage();
    msg->type = UWP_MSG_LOCK_MOUSE;
    SendMessageToUWP(msg);
#endif
    CORE.Input.Mouse.cursorHidden = false;
}

// Disables cursor (lock cursor)
void DisableCursor(void)
{
#if defined(PLATFORM_DESKTOP)
    glfwSetInputMode(CORE.Window.handle, GLFW_CURSOR, GLFW_CURSOR_DISABLED);
#endif
#if defined(PLATFORM_WEB)
    CORE.Input.Mouse.cursorLockRequired = true;
#endif
#if defined(PLATFORM_UWP)
    UWPMessage *msg = CreateUWPMessage();
    msg->type = UWP_MSG_UNLOCK_MOUSE;
    SendMessageToUWP(msg);
#endif
    CORE.Input.Mouse.cursorHidden = true;
}

// Set background color (framebuffer clear color)
void ClearBackground(Color color)
{
    rlClearColor(color.r, color.g, color.b, color.a);   // Set clear color
    rlClearScreenBuffers();                             // Clear current framebuffers
}

// Setup canvas (framebuffer) to start drawing
void BeginDrawing(void)
{
    CORE.Time.current = GetTime();            // Number of elapsed seconds since InitTimer()
    CORE.Time.update = CORE.Time.current - CORE.Time.previous;
    CORE.Time.previous = CORE.Time.current;

    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)
    rlMultMatrixf(MatrixToFloat(CORE.Window.screenScale)); // Apply screen scaling

    //rlTranslatef(0.375, 0.375, 0);    // HACK to have 2D pixel-perfect drawing on OpenGL 1.1
                                        // NOTE: Not required with OpenGL 3.3+
}

// End canvas drawing and swap buffers (double buffering)
void EndDrawing(void)
{
#if defined(PLATFORM_RPI) && defined(SUPPORT_MOUSE_CURSOR_RPI)
    // On RPI native mode we have no system mouse cursor, so,
    // we draw a small rectangle for user reference
    DrawRectangle(CORE.Input.Mouse.position.x, CORE.Input.Mouse.position.y, 3, 3, MAROON);
#endif

    rlglDraw();                     // Draw Buffers (Only OpenGL 3+ and ES2)

#if defined(SUPPORT_GIF_RECORDING)
    #define GIF_RECORD_FRAMERATE    10

    if (gifRecording)
    {
        gifFramesCounter++;

        // NOTE: We record one gif frame every 10 game frames
        if ((gifFramesCounter%GIF_RECORD_FRAMERATE) == 0)
        {
            // Get image data for the current frame (from backbuffer)
            // NOTE: This process is very slow... :(
            unsigned char *screenData = rlReadScreenPixels(CORE.Window.screen.width, CORE.Window.screen.height);
            GifWriteFrame(screenData, CORE.Window.screen.width, CORE.Window.screen.height, 10, 8, false);

            RL_FREE(screenData);   // Free image data
        }

        if (((gifFramesCounter/15)%2) == 1)
        {
            DrawCircle(30, CORE.Window.screen.height - 20, 10, RED);
            DrawText("RECORDING", 50, CORE.Window.screen.height - 25, 10, MAROON);
        }

        rlglDraw();                 // Draw RECORDING message
    }
#endif

    SwapBuffers();                  // Copy back buffer to front buffer
    PollInputEvents();              // Poll user events

    // Frame time control system
    CORE.Time.current = GetTime();
    CORE.Time.draw = CORE.Time.current - CORE.Time.previous;
    CORE.Time.previous = CORE.Time.current;

    CORE.Time.frame = CORE.Time.update + CORE.Time.draw;

    // Wait for some milliseconds...
    if (CORE.Time.frame < CORE.Time.target)
    {
        Wait((float)(CORE.Time.target - CORE.Time.frame)*1000.0f);

        CORE.Time.current = GetTime();
        double waitTime = CORE.Time.current - CORE.Time.previous;
        CORE.Time.previous = CORE.Time.current;

        CORE.Time.frame += waitTime;      // Total frame time: update + draw + wait

        //SetWindowTitle(FormatText("Update: %f, Draw: %f, Req.Wait: %f, Real.Wait: %f, Total: %f, Target: %f\n",
        //               (float)CORE.Time.update, (float)CORE.Time.draw, (float)(CORE.Time.target - (CORE.Time.update + CORE.Time.draw)),
        //               (float)waitTime, (float)CORE.Time.frame, (float)CORE.Time.target));
    }
}

// Initialize 2D mode with custom camera (2D)
void BeginMode2D(Camera2D camera)
{
    rlglDraw();                         // Draw Buffers (Only OpenGL 3+ and ES2)

    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)

    // Apply 2d camera transformation to modelview
    rlMultMatrixf(MatrixToFloat(GetCameraMatrix2D(camera)));

    // Apply screen scaling if required
    rlMultMatrixf(MatrixToFloat(CORE.Window.screenScale));
}

// Ends 2D mode with custom camera
void EndMode2D(void)
{
    rlglDraw();                         // Draw Buffers (Only OpenGL 3+ and ES2)

    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)
    rlMultMatrixf(MatrixToFloat(CORE.Window.screenScale)); // Apply screen scaling if required
}

// Initializes 3D mode with custom camera (3D)
void BeginMode3D(Camera3D camera)
{
    rlglDraw();                         // Draw Buffers (Only OpenGL 3+ and ES2)

    rlMatrixMode(RL_PROJECTION);        // Switch to projection matrix
    rlPushMatrix();                     // Save previous matrix, which contains the settings for the 2d ortho projection
    rlLoadIdentity();                   // Reset current matrix (PROJECTION)

    float aspect = (float)CORE.Window.currentFbo.width/(float)CORE.Window.currentFbo.height;

    if (camera.type == CAMERA_PERSPECTIVE)
    {
        // Setup perspective projection
        double top = 0.01*tan(camera.fovy*0.5*DEG2RAD);
        double right = top*aspect;

        rlFrustum(-right, right, -top, top, DEFAULT_NEAR_CULL_DISTANCE, DEFAULT_FAR_CULL_DISTANCE);
    }
    else if (camera.type == CAMERA_ORTHOGRAPHIC)
    {
        // Setup orthographic projection
        double top = camera.fovy/2.0;
        double right = top*aspect;

        rlOrtho(-right, right, -top,top, DEFAULT_NEAR_CULL_DISTANCE, DEFAULT_FAR_CULL_DISTANCE);
    }

    // NOTE: zNear and zFar values are important when computing depth buffer values

    rlMatrixMode(RL_MODELVIEW);         // Switch back to modelview matrix
    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)

    // Setup Camera view
    Matrix matView = MatrixLookAt(camera.position, camera.target, camera.up);
    rlMultMatrixf(MatrixToFloat(matView));      // Multiply MODELVIEW matrix by view matrix (camera)

    rlEnableDepthTest();                // Enable DEPTH_TEST for 3D
}

// Ends 3D mode and returns to default 2D orthographic mode
void EndMode3D(void)
{
    rlglDraw();                         // Process internal buffers (update + draw)

    rlMatrixMode(RL_PROJECTION);        // Switch to projection matrix
    rlPopMatrix();                      // Restore previous matrix (PROJECTION) from matrix stack

    rlMatrixMode(RL_MODELVIEW);         // Get back to modelview matrix
    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)

    rlMultMatrixf(MatrixToFloat(CORE.Window.screenScale)); // Apply screen scaling if required

    rlDisableDepthTest();               // Disable DEPTH_TEST for 2D
}

// Initializes render texture for drawing
void BeginTextureMode(RenderTexture2D target)
{
    rlglDraw();                         // Draw Buffers (Only OpenGL 3+ and ES2)

    rlEnableRenderTexture(target.id);   // Enable render target

    // Set viewport to framebuffer size
    rlViewport(0, 0, target.texture.width, target.texture.height);

    rlMatrixMode(RL_PROJECTION);        // Switch to PROJECTION matrix
    rlLoadIdentity();                   // Reset current matrix (PROJECTION)

    // Set orthographic projection to current framebuffer size
    // NOTE: Configured top-left corner as (0, 0)
    rlOrtho(0, target.texture.width, target.texture.height, 0, 0.0f, 1.0f);

    rlMatrixMode(RL_MODELVIEW);         // Switch back to MODELVIEW matrix
    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)

    //rlScalef(0.0f, -1.0f, 0.0f);      // Flip Y-drawing (?)

    // Setup current width/height for proper aspect ratio
    // calculation when using BeginMode3D()
    CORE.Window.currentFbo.width = target.texture.width;
    CORE.Window.currentFbo.height = target.texture.height;
}

// Ends drawing to render texture
void EndTextureMode(void)
{
    rlglDraw();                         // Draw Buffers (Only OpenGL 3+ and ES2)

    rlDisableRenderTexture();           // Disable render target

    // Set viewport to default framebuffer size
    SetupViewport(CORE.Window.render.width, CORE.Window.render.height);

    // Reset current screen size
    CORE.Window.currentFbo.width = GetScreenWidth();
    CORE.Window.currentFbo.height = GetScreenHeight();
}

// Begin scissor mode (define screen area for following drawing)
// NOTE: Scissor rec refers to bottom-left corner, we change it to upper-left
void BeginScissorMode(int x, int y, int width, int height)
{
    rlglDraw(); // Force drawing elements

    rlEnableScissorTest();
    rlScissor(x, GetScreenHeight() - (y + height), width, height);
}

// End scissor mode
void EndScissorMode(void)
{
    rlglDraw(); // Force drawing elements
    rlDisableScissorTest();
}

// Returns a ray trace from mouse position
Ray GetMouseRay(Vector2 mouse, Camera camera)
{
    Ray ray;

    // Calculate normalized device coordinates
    // NOTE: y value is negative
    float x = (2.0f*mouse.x)/(float)GetScreenWidth() - 1.0f;
    float y = 1.0f - (2.0f*mouse.y)/(float)GetScreenHeight();
    float z = 1.0f;

    // Store values in a vector
    Vector3 deviceCoords = { x, y, z };

    // Calculate view matrix from camera look at
    Matrix matView = MatrixLookAt(camera.position, camera.target, camera.up);

    Matrix matProj = MatrixIdentity();

    if (camera.type == CAMERA_PERSPECTIVE)
    {
        // Calculate projection matrix from perspective
        matProj = MatrixPerspective(camera.fovy*DEG2RAD, ((double)GetScreenWidth()/(double)GetScreenHeight()), DEFAULT_NEAR_CULL_DISTANCE, DEFAULT_FAR_CULL_DISTANCE);
    }
    else if (camera.type == CAMERA_ORTHOGRAPHIC)
    {
        float aspect = (float)CORE.Window.screen.width/(float)CORE.Window.screen.height;
        double top = camera.fovy/2.0;
        double right = top*aspect;

        // Calculate projection matrix from orthographic
        matProj = MatrixOrtho(-right, right, -top, top, 0.01, 1000.0);
    }

    // Unproject far/near points
    Vector3 nearPoint = rlUnproject((Vector3){ deviceCoords.x, deviceCoords.y, 0.0f }, matProj, matView);
    Vector3 farPoint = rlUnproject((Vector3){ deviceCoords.x, deviceCoords.y, 1.0f }, matProj, matView);

    // Unproject the mouse cursor in the near plane.
    // We need this as the source position because orthographic projects, compared to perspect doesn't have a
    // convergence point, meaning that the "eye" of the camera is more like a plane than a point.
    Vector3 cameraPlanePointerPos = rlUnproject((Vector3){ deviceCoords.x, deviceCoords.y, -1.0f }, matProj, matView);

    // Calculate normalized direction vector
    Vector3 direction = Vector3Normalize(Vector3Subtract(farPoint, nearPoint));

    if (camera.type == CAMERA_PERSPECTIVE) ray.position = camera.position;
    else if (camera.type == CAMERA_ORTHOGRAPHIC) ray.position = cameraPlanePointerPos;

    // Apply calculated vectors to ray
    ray.direction = direction;

    return ray;
}

// Get transform matrix for camera
Matrix GetCameraMatrix(Camera camera)
{
    return MatrixLookAt(camera.position, camera.target, camera.up);
}

// Returns camera 2d transform matrix
Matrix GetCameraMatrix2D(Camera2D camera)
{
    Matrix matTransform = { 0 };
    // The camera in world-space is set by
    //   1. Move it to target
    //   2. Rotate by -rotation and scale by (1/zoom)
    //      When setting higher scale, it's more intuitive for the world to become bigger (= camera become smaller),
    //      not for the camera getting bigger, hence the invert. Same deal with rotation.
    //   3. Move it by (-offset);
    //      Offset defines target transform relative to screen, but since we're effectively "moving" screen (camera)
    //      we need to do it into opposite direction (inverse transform)

    // Having camera transform in world-space, inverse of it gives the modelview transform.
    // Since (A*B*C)' = C'*B'*A', the modelview is
    //   1. Move to offset
    //   2. Rotate and Scale
    //   3. Move by -target
    Matrix matOrigin = MatrixTranslate(-camera.target.x, -camera.target.y, 0.0f);
    Matrix matRotation = MatrixRotate((Vector3){ 0.0f, 0.0f, 1.0f }, camera.rotation*DEG2RAD);
    Matrix matScale = MatrixScale(camera.zoom, camera.zoom, 1.0f);
    Matrix matTranslation = MatrixTranslate(camera.offset.x, camera.offset.y, 0.0f);

    matTransform = MatrixMultiply(MatrixMultiply(matOrigin, MatrixMultiply(matScale, matRotation)), matTranslation);

    return matTransform;
}

// Returns the screen space position from a 3d world space position
Vector2 GetWorldToScreen(Vector3 position, Camera camera)
{
    Vector2 screenPosition = GetWorldToScreenEx(position, camera, GetScreenWidth(), GetScreenHeight());

    return screenPosition;
}

// Returns size position for a 3d world space position (useful for texture drawing)
Vector2 GetWorldToScreenEx(Vector3 position, Camera camera, int width, int height)
{
    // Calculate projection matrix (from perspective instead of frustum
    Matrix matProj = MatrixIdentity();

    if (camera.type == CAMERA_PERSPECTIVE)
    {
        // Calculate projection matrix from perspective
        matProj = MatrixPerspective(camera.fovy * DEG2RAD, ((double)width/(double)height), DEFAULT_NEAR_CULL_DISTANCE, DEFAULT_FAR_CULL_DISTANCE);
    }
    else if (camera.type == CAMERA_ORTHOGRAPHIC)
    {
        float aspect = (float)CORE.Window.screen.width/(float)CORE.Window.screen.height;
        double top = camera.fovy/2.0;
        double right = top*aspect;

        // Calculate projection matrix from orthographic
        matProj = MatrixOrtho(-right, right, -top, top, DEFAULT_NEAR_CULL_DISTANCE, DEFAULT_FAR_CULL_DISTANCE);
    }

    // Calculate view matrix from camera look at (and transpose it)
    Matrix matView = MatrixLookAt(camera.position, camera.target, camera.up);

    // Convert world position vector to quaternion
    Quaternion worldPos = { position.x, position.y, position.z, 1.0f };

    // Transform world position to view
    worldPos = QuaternionTransform(worldPos, matView);

    // Transform result to projection (clip space position)
    worldPos = QuaternionTransform(worldPos, matProj);

    // Calculate normalized device coordinates (inverted y)
    Vector3 ndcPos = { worldPos.x/worldPos.w, -worldPos.y/worldPos.w, worldPos.z/worldPos.w };

    // Calculate 2d screen position vector
    Vector2 screenPosition = { (ndcPos.x + 1.0f)/2.0f*(float)width, (ndcPos.y + 1.0f)/2.0f*(float)height };

    return screenPosition;
}

// Returns the screen space position for a 2d camera world space position
Vector2 GetWorldToScreen2D(Vector2 position, Camera2D camera)
{
    Matrix matCamera = GetCameraMatrix2D(camera);
    Vector3 transform = Vector3Transform((Vector3){ position.x, position.y, 0 }, matCamera);

    return (Vector2){ transform.x, transform.y };
}

// Returns the world space position for a 2d camera screen space position
Vector2 GetScreenToWorld2D(Vector2 position, Camera2D camera)
{
    Matrix invMatCamera = MatrixInvert(GetCameraMatrix2D(camera));
    Vector3 transform = Vector3Transform((Vector3){ position.x, position.y, 0 }, invMatCamera);

    return (Vector2){ transform.x, transform.y };
}

// Set target FPS (maximum)
void SetTargetFPS(int fps)
{
    if (fps < 1) CORE.Time.target = 0.0;
    else CORE.Time.target = 1.0/(double)fps;

    TRACELOG(LOG_INFO, "TIMER: Target time per frame: %02.03f milliseconds", (float)CORE.Time.target*1000);
}

// Returns current FPS
// NOTE: We calculate an average framerate
int GetFPS(void)
{
    #define FPS_CAPTURE_FRAMES_COUNT    30      // 30 captures
    #define FPS_AVERAGE_TIME_SECONDS   0.5f     // 500 millisecondes
    #define FPS_STEP (FPS_AVERAGE_TIME_SECONDS/FPS_CAPTURE_FRAMES_COUNT)

    static int index = 0;
    static float history[FPS_CAPTURE_FRAMES_COUNT] = { 0 };
    static float average = 0, last = 0;
    float fpsFrame = GetFrameTime();

    if (fpsFrame == 0) return 0;

    if ((GetTime() - last) > FPS_STEP)
    {
        last = GetTime();
        index = (index + 1)%FPS_CAPTURE_FRAMES_COUNT;
        average -= history[index];
        history[index] = fpsFrame/FPS_CAPTURE_FRAMES_COUNT;
        average += history[index];
    }

    return (int)roundf(1.0f/average);
}

// Returns time in seconds for last frame drawn
float GetFrameTime(void)
{
    return (float)CORE.Time.frame;
}

// Get elapsed time measure in seconds since InitTimer()
// NOTE: On PLATFORM_DESKTOP InitTimer() is called on InitWindow()
// NOTE: On PLATFORM_DESKTOP, timer is initialized on glfwInit()
double GetTime(void)
{
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
    return glfwGetTime();                   // Elapsed time since glfwInit()
#endif

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI)
    struct timespec ts;
    clock_gettime(CLOCK_MONOTONIC, &ts);
    unsigned long long int time = (unsigned long long int)ts.tv_sec*1000000000LLU + (unsigned long long int)ts.tv_nsec;

    return (double)(time - CORE.Time.base)*1e-9;  // Elapsed time since InitTimer()
#endif

#if defined(PLATFORM_UWP)
    // Updated through messages
    return CORE.Time.current;
#endif
}

// Returns hexadecimal value for a Color
int ColorToInt(Color color)
{
    return (((int)color.r << 24) | ((int)color.g << 16) | ((int)color.b << 8) | (int)color.a);
}

// Returns color normalized as float [0..1]
Vector4 ColorNormalize(Color color)
{
    Vector4 result;

    result.x = (float)color.r/255.0f;
    result.y = (float)color.g/255.0f;
    result.z = (float)color.b/255.0f;
    result.w = (float)color.a/255.0f;

    return result;
}

// Returns color from normalized values [0..1]
Color ColorFromNormalized(Vector4 normalized)
{
    Color result;

    result.r = normalized.x*255.0f;
    result.g = normalized.y*255.0f;
    result.b = normalized.z*255.0f;
    result.a = normalized.w*255.0f;

    return result;
}

// Returns HSV values for a Color
// NOTE: Hue is returned as degrees [0..360]
Vector3 ColorToHSV(Color color)
{
    Vector3 hsv = { 0 };
    Vector3 rgb = { (float)color.r/255.0f, (float)color.g/255.0f, (float)color.b/255.0f };
    float min, max, delta;

    min = rgb.x < rgb.y? rgb.x : rgb.y;
    min = min  < rgb.z? min  : rgb.z;

    max = rgb.x > rgb.y? rgb.x : rgb.y;
    max = max  > rgb.z? max  : rgb.z;

    hsv.z = max;            // Value
    delta = max - min;

    if (delta < 0.00001f)
    {
        hsv.y = 0.0f;
        hsv.x = 0.0f;       // Undefined, maybe NAN?
        return hsv;
    }

    if (max > 0.0f)
    {
        // NOTE: If max is 0, this divide would cause a crash
        hsv.y = (delta/max);    // Saturation
    }
    else
    {
        // NOTE: If max is 0, then r = g = b = 0, s = 0, h is undefined
        hsv.y = 0.0f;
        hsv.x = NAN;        // Undefined
        return hsv;
    }

    // NOTE: Comparing float values could not work properly
    if (rgb.x >= max) hsv.x = (rgb.y - rgb.z)/delta;    // Between yellow & magenta
    else
    {
        if (rgb.y >= max) hsv.x = 2.0f + (rgb.z - rgb.x)/delta;  // Between cyan & yellow
        else hsv.x = 4.0f + (rgb.x - rgb.y)/delta;      // Between magenta & cyan
    }

    hsv.x *= 60.0f;     // Convert to degrees

    if (hsv.x < 0.0f) hsv.x += 360.0f;

    return hsv;
}

// Returns a Color from HSV values
// Implementation reference: https://en.wikipedia.org/wiki/HSL_and_HSV#Alternative_HSV_conversion
// NOTE: Color->HSV->Color conversion will not yield exactly the same color due to rounding errors
Color ColorFromHSV(Vector3 hsv)
{
    Color color = { 0, 0, 0, 255 };
    float h = hsv.x, s = hsv.y, v = hsv.z;

    // Red channel
    float k = fmod((5.0f + h/60.0f), 6);
    float t = 4.0f - k;
    k = (t < k)? t : k;
    k = (k < 1)? k : 1;
    k = (k > 0)? k : 0;
    color.r = (v - v*s*k)*255;

    // Green channel
    k = fmod((3.0f + h/60.0f), 6);
    t = 4.0f - k;
    k = (t < k)? t : k;
    k = (k < 1)? k : 1;
    k = (k > 0)? k : 0;
    color.g = (v - v*s*k)*255;

    // Blue channel
    k = fmod((1.0f + h/60.0f), 6);
    t = 4.0f - k;
    k = (t < k)? t : k;
    k = (k < 1)? k : 1;
    k = (k > 0)? k : 0;
    color.b = (v - v*s*k)*255;

    return color;
}

// Returns a Color struct from hexadecimal value
Color GetColor(int hexValue)
{
    Color color;

    color.r = (unsigned char)(hexValue >> 24) & 0xFF;
    color.g = (unsigned char)(hexValue >> 16) & 0xFF;
    color.b = (unsigned char)(hexValue >> 8) & 0xFF;
    color.a = (unsigned char)hexValue & 0xFF;

    return color;
}

// Returns a random value between min and max (both included)
int GetRandomValue(int min, int max)
{
    if (min > max)
    {
        int tmp = max;
        max = min;
        min = tmp;
    }

    return (rand()%(abs(max - min) + 1) + min);
}

// Color fade-in or fade-out, alpha goes from 0.0f to 1.0f
Color Fade(Color color, float alpha)
{
    if (alpha < 0.0f) alpha = 0.0f;
    else if (alpha > 1.0f) alpha = 1.0f;

    return (Color){color.r, color.g, color.b, (unsigned char)(255.0f*alpha)};
}

// Setup window configuration flags (view FLAGS)
void SetConfigFlags(unsigned int flags)
{
    CORE.Window.flags = flags;

    if (CORE.Window.flags & FLAG_FULLSCREEN_MODE) CORE.Window.fullscreen = true;
    if (CORE.Window.flags & FLAG_WINDOW_ALWAYS_RUN) CORE.Window.alwaysRun = true;
}

// NOTE TRACELOG() function is located in [utils.h]

// Takes a screenshot of current screen (saved a .png)
// NOTE: This function could work in any platform but some platforms: PLATFORM_ANDROID and PLATFORM_WEB
// have their own internal file-systems, to dowload image to user file-system some additional mechanism is required
void TakeScreenshot(const char *fileName)
{
    unsigned char *imgData = rlReadScreenPixels(CORE.Window.render.width, CORE.Window.render.height);
    Image image = { imgData, CORE.Window.render.width, CORE.Window.render.height, 1, UNCOMPRESSED_R8G8B8A8 };

    char path[512] = { 0 };
#if defined(PLATFORM_ANDROID)
    strcpy(path, CORE.Android.internalDataPath);
    strcat(path, "/");
    strcat(path, fileName);
#else
    strcpy(path, fileName);
#endif

    ExportImage(image, path);
    RL_FREE(imgData);

#if defined(PLATFORM_WEB)
    // Download file from MEMFS (emscripten memory filesystem)
    // saveFileFromMEMFSToDisk() function is defined in raylib/src/shell.html
    emscripten_run_script(TextFormat("saveFileFromMEMFSToDisk('%s','%s')", GetFileName(path), GetFileName(path)));
#endif

    // TODO: Verification required for log
    TRACELOG(LOG_INFO, "SYSTEM: [%s] Screenshot taken successfully", path);
}

// Check if the file exists
bool FileExists(const char *fileName)
{
    bool result = false;

#if defined(_WIN32)
    if (_access(fileName, 0) != -1) result = true;
#else
    if (access(fileName, F_OK) != -1) result = true;
#endif

    return result;
}

// Check file extension
// NOTE: Extensions checking is not case-sensitive
bool IsFileExtension(const char *fileName, const char *ext)
{
    bool result = false;
    const char *fileExt = GetExtension(fileName);

    if (fileExt != NULL)
    {
        int extCount = 0;
        const char **checkExts = TextSplit(ext, ';', &extCount);

        char fileExtLower[16] = { 0 };
        strcpy(fileExtLower, TextToLower(fileExt));

        for (int i = 0; i < extCount; i++)
        {
            if (TextIsEqual(fileExtLower, TextToLower(checkExts[i] + 1)))
            {
                result = true;
                break;
            }
        }
    }

    return result;
}

// Check if a directory path exists
bool DirectoryExists(const char *dirPath)
{
    bool result = false;
    DIR *dir = opendir(dirPath);

    if (dir != NULL)
    {
        result = true;
        closedir(dir);
    }

    return result;
}

// Get pointer to extension for a filename string
const char *GetExtension(const char *fileName)
{
    const char *dot = strrchr(fileName, '.');

    if (!dot || dot == fileName) return NULL;

    return (dot + 1);
}

// String pointer reverse break: returns right-most occurrence of charset in s
static const char *strprbrk(const char *s, const char *charset)
{
    const char *latestMatch = NULL;
    for (; s = strpbrk(s, charset), s != NULL; latestMatch = s++) { }
    return latestMatch;
}

// Get pointer to filename for a path string
const char *GetFileName(const char *filePath)
{
    const char *fileName = NULL;
    if (filePath != NULL) fileName = strprbrk(filePath, "\\/");

    if (!fileName || (fileName == filePath)) return filePath;

    return fileName + 1;
}

// Get filename string without extension (uses static string)
const char *GetFileNameWithoutExt(const char *filePath)
{
    #define MAX_FILENAMEWITHOUTEXT_LENGTH   128

    static char fileName[MAX_FILENAMEWITHOUTEXT_LENGTH];
    memset(fileName, 0, MAX_FILENAMEWITHOUTEXT_LENGTH);

    if (filePath != NULL) strcpy(fileName, GetFileName(filePath));   // Get filename with extension

    int len = strlen(fileName);

    for (int i = 0; (i < len) && (i < MAX_FILENAMEWITHOUTEXT_LENGTH); i++)
    {
        if (fileName[i] == '.')
        {
            // NOTE: We break on first '.' found
            fileName[i] = '\0';
            break;
        }
    }

    return fileName;
}

// Get directory for a given filePath
const char *GetDirectoryPath(const char *filePath)
{
/*
    // NOTE: Directory separator is different in Windows and other platforms,
    // fortunately, Windows also support the '/' separator, that's the one should be used
    #if defined(_WIN32)
        char separator = '\\';
    #else
        char separator = '/';
    #endif
*/
    const char *lastSlash = NULL;
    static char dirPath[MAX_FILEPATH_LENGTH];
    memset(dirPath, 0, MAX_FILEPATH_LENGTH);

    // In case provided path does not contains a root drive letter (C:\, D:\),
    // we add the current directory path to dirPath
    if (filePath[1] != ':')
    {
        // For security, we set starting path to current directory,
        // obtained path will be concated to this
        dirPath[0] = '.';
        dirPath[1] = '/';
    }

    lastSlash = strprbrk(filePath, "\\/");
    if (lastSlash)
    {
        // NOTE: Be careful, strncpy() is not safe, it does not care about '\0'
        strncpy(dirPath + ((filePath[1] != ':')? 2 : 0), filePath, strlen(filePath) - (strlen(lastSlash) - 1));
        dirPath[strlen(filePath) - strlen(lastSlash) + ((filePath[1] != ':')? 2 : 0)] = '\0';  // Add '\0' manually
    }

    return dirPath;
}

// Get previous directory path for a given path
const char *GetPrevDirectoryPath(const char *dirPath)
{
    static char prevDirPath[MAX_FILEPATH_LENGTH];
    memset(prevDirPath, 0, MAX_FILEPATH_LENGTH);
    int pathLen = strlen(dirPath);

    if (pathLen <= 3) strcpy(prevDirPath, dirPath);

    for (int i = (pathLen - 1); (i > 0) && (pathLen > 3); i--)
    {
        if ((dirPath[i] == '\\') || (dirPath[i] == '/'))
        {
            if (i == 2) i++;    // Check for root: "C:\"
            strncpy(prevDirPath, dirPath, i);
            break;
        }
    }

    return prevDirPath;
}

// Get current working directory
const char *GetWorkingDirectory(void)
{
    static char currentDir[MAX_FILEPATH_LENGTH];
    memset(currentDir, 0, MAX_FILEPATH_LENGTH);

    GETCWD(currentDir, MAX_FILEPATH_LENGTH - 1);

    return currentDir;
}

// Get filenames in a directory path (max 512 files)
// NOTE: Files count is returned by parameters pointer
char **GetDirectoryFiles(const char *dirPath, int *fileCount)
{
    #define MAX_DIRECTORY_FILES     512

    ClearDirectoryFiles();

    // Memory allocation for MAX_DIRECTORY_FILES
    dirFilesPath = (char **)RL_MALLOC(sizeof(char *)*MAX_DIRECTORY_FILES);
    for (int i = 0; i < MAX_DIRECTORY_FILES; i++) dirFilesPath[i] = (char *)RL_MALLOC(sizeof(char)*MAX_FILEPATH_LENGTH);

    int counter = 0;
    struct dirent *entity;
    DIR *dir = opendir(dirPath);

    if (dir != NULL)  // It's a directory
    {
        // TODO: Reading could be done in two passes,
        // first one to count files and second one to read names
        // That way we can allocate required memory, instead of a limited pool

        while ((entity = readdir(dir)) != NULL)
        {
            strcpy(dirFilesPath[counter], entity->d_name);
            counter++;
        }

        closedir(dir);
    }
    else TRACELOG(LOG_WARNING, "FILEIO: Failed to open requested directory");  // Maybe it's a file...

    dirFilesCount = counter;
    *fileCount = dirFilesCount;

    return dirFilesPath;
}

// Clear directory files paths buffers
void ClearDirectoryFiles(void)
{
    if (dirFilesCount > 0)
    {
        for (int i = 0; i < MAX_DIRECTORY_FILES; i++) RL_FREE(dirFilesPath[i]);

        RL_FREE(dirFilesPath);
    }

    dirFilesCount = 0;
}

// Change working directory, returns true if success
bool ChangeDirectory(const char *dir)
{
    return (CHDIR(dir) == 0);
}

// Check if a file has been dropped into window
bool IsFileDropped(void)
{
    if (CORE.Window.dropFilesCount > 0) return true;
    else return false;
}

// Get dropped files names
char **GetDroppedFiles(int *count)
{
    *count = CORE.Window.dropFilesCount;
    return CORE.Window.dropFilesPath;
}

// Clear dropped files paths buffer
void ClearDroppedFiles(void)
{
    if (CORE.Window.dropFilesCount > 0)
    {
        for (int i = 0; i < CORE.Window.dropFilesCount; i++) RL_FREE(CORE.Window.dropFilesPath[i]);

        RL_FREE(CORE.Window.dropFilesPath);

        CORE.Window.dropFilesCount = 0;
    }
}

// Get file modification time (last write time)
long GetFileModTime(const char *fileName)
{
    struct stat result = { 0 };

    if (stat(fileName, &result) == 0)
    {
        time_t mod = result.st_mtime;

        return (long)mod;
    }

    return 0;
}

// Compress data (DEFLATE algorythm)
unsigned char *CompressData(unsigned char *data, int dataLength, int *compDataLength)
{
    #define COMPRESSION_QUALITY_DEFLATE  8

    unsigned char *compData = NULL;

#if defined(SUPPORT_COMPRESSION_API)
    compData = stbi_zlib_compress(data, dataLength, compDataLength, COMPRESSION_QUALITY_DEFLATE);
#endif

    return compData;
}

// Decompress data (DEFLATE algorythm)
unsigned char *DecompressData(unsigned char *compData, int compDataLength, int *dataLength)
{
    char *data = NULL;

#if defined(SUPPORT_COMPRESSION_API)
    data = stbi_zlib_decode_malloc((char *)compData, compDataLength, dataLength);
#endif

    return (unsigned char *)data;
}

// Save integer value to storage file (to defined position)
// NOTE: Storage positions is directly related to file memory layout (4 bytes each integer)
void SaveStorageValue(unsigned int position, int value)
{
#if defined(SUPPORT_DATA_STORAGE)
    char path[512] = { 0 };
#if defined(PLATFORM_ANDROID)
    strcpy(path, CORE.Android.internalDataPath);
    strcat(path, "/");
    strcat(path, STORAGE_DATA_FILE);
#else
    strcpy(path, STORAGE_DATA_FILE);
#endif

    unsigned int dataSize = 0;
    unsigned int newDataSize = 0;
    unsigned char *fileData = LoadFileData(path, &dataSize);
    unsigned char *newFileData = NULL;

    if (fileData != NULL)
    {
        if (dataSize <= (position*sizeof(int)))
        {
            // Increase data size up to position and store value
            newDataSize = (position + 1)*sizeof(int);
            newFileData = (unsigned char *)RL_REALLOC(fileData, newDataSize);

            if (newFileData != NULL)
            {
                // RL_REALLOC succeded
                int *dataPtr = (int *)newFileData;
                dataPtr[position] = value;  
            }
            else
            {
                // RL_REALLOC failed
                TRACELOG(LOG_WARNING, "FILEIO: [%s] Failed to realloc data (%u), position in bytes (%u) bigger than actual file size", path, dataSize, position*sizeof(int));  
                
                // We store the old size of the file
                newFileData = fileData;
                newDataSize = dataSize;
            }
        }
        else
        {
            // Store the old size of the file
            newFileData = fileData;
            newDataSize = dataSize;

            // Replace value on selected position
            int *dataPtr = (int *)newFileData;
            dataPtr[position] = value;
        }

        SaveFileData(path, newFileData, newDataSize);
        RL_FREE(newFileData);
    }
    else
    {
        TRACELOG(LOG_INFO, "FILEIO: [%s] File not found, creating it", path);

        dataSize = (position + 1)*sizeof(int);
        fileData = (unsigned char *)RL_MALLOC(dataSize);
        int *dataPtr = (int *)fileData;
        dataPtr[position] = value;

        SaveFileData(path, fileData, dataSize);
        RL_FREE(fileData);
    }
#endif
}

// Load integer value from storage file (from defined position)
// NOTE: If requested position could not be found, value 0 is returned
int LoadStorageValue(unsigned int position)
{
    int value = 0;
#if defined(SUPPORT_DATA_STORAGE)
    char path[512] = { 0 };
#if defined(PLATFORM_ANDROID)
    strcpy(path, CORE.Android.internalDataPath);
    strcat(path, "/");
    strcat(path, STORAGE_DATA_FILE);
#else
    strcpy(path, STORAGE_DATA_FILE);
#endif

    unsigned int dataSize = 0;
    unsigned char *fileData = LoadFileData(path, &dataSize);

    if (fileData != NULL)
    {
        if (dataSize < (position*4)) TRACELOG(LOG_WARNING, "SYSTEM: Failed to find storage position");
        else
        {
            int *dataPtr = (int *)fileData;
            value = dataPtr[position];
        }

        RL_FREE(fileData);
    }
#endif
    return value;
}

// Open URL with default system browser (if available)
// NOTE: This function is only safe to use if you control the URL given.
// A user could craft a malicious string performing another action.
// Only call this function yourself not with user input or make sure to check the string yourself.
// CHECK: https://github.com/raysan5/raylib/issues/686
void OpenURL(const char *url)
{
    // Small security check trying to avoid (partially) malicious code...
    // sorry for the inconvenience when you hit this point...
    if (strchr(url, '\'') != NULL)
    {
        TRACELOG(LOG_WARNING, "SYSTEM: Provided URL is not valid");
    }
    else
    {
#if defined(PLATFORM_DESKTOP)
        char *cmd = (char *)RL_CALLOC(strlen(url) + 10, sizeof(char));
    #if defined(_WIN32)
        sprintf(cmd, "explorer %s", url);
    #elif defined(__linux__)
        sprintf(cmd, "xdg-open '%s'", url); // Alternatives: firefox, x-www-browser
    #elif defined(__APPLE__)
        sprintf(cmd, "open '%s'", url);
    #endif
        system(cmd);
        RL_FREE(cmd);
#endif
#if defined(PLATFORM_WEB)
        emscripten_run_script(TextFormat("window.open('%s', '_blank')", url));
#endif
    }
}

//----------------------------------------------------------------------------------
// Module Functions Definition - Input (Keyboard, Mouse, Gamepad) Functions
//----------------------------------------------------------------------------------
// Detect if a key has been pressed once
bool IsKeyPressed(int key)
{
    bool pressed = false;

    if ((CORE.Input.Keyboard.previousKeyState[key] == 0) && (CORE.Input.Keyboard.currentKeyState[key] == 1)) pressed = true;
    else pressed = false;

    return pressed;
}

// Detect if a key is being pressed (key held down)
bool IsKeyDown(int key)
{
    if (CORE.Input.Keyboard.currentKeyState[key] == 1) return true;
    else return false;
}

// Detect if a key has been released once
bool IsKeyReleased(int key)
{
    bool released = false;

    if ((CORE.Input.Keyboard.previousKeyState[key] == 1) && (CORE.Input.Keyboard.currentKeyState[key] == 0)) released = true;
    else released = false;

    return released;
}

// Detect if a key is NOT being pressed (key not held down)
bool IsKeyUp(int key)
{
    if (CORE.Input.Keyboard.currentKeyState[key] == 0) return true;
    else return false;
}

// Get the last key pressed
int GetKeyPressed(void)
{
    int value = 0;

    if (CORE.Input.Keyboard.keyPressedQueueCount > 0)
    {
        // Get character from the queue head
        value = CORE.Input.Keyboard.keyPressedQueue[0];

        // Shift elements 1 step toward the head.
        for (int i = 0; i < (CORE.Input.Keyboard.keyPressedQueueCount - 1); i++) CORE.Input.Keyboard.keyPressedQueue[i] = CORE.Input.Keyboard.keyPressedQueue[i + 1];

        // Reset last character in the queue
        CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = 0;
        CORE.Input.Keyboard.keyPressedQueueCount--;
    }

    return value;
}

// Set a custom key to exit program
// NOTE: default exitKey is ESCAPE
void SetExitKey(int key)
{
#if !defined(PLATFORM_ANDROID)
    CORE.Input.Keyboard.exitKey = key;
#endif
}

// NOTE: Gamepad support not implemented in emscripten GLFW3 (PLATFORM_WEB)

// Detect if a gamepad is available
bool IsGamepadAvailable(int gamepad)
{
    bool result = false;

#if !defined(PLATFORM_ANDROID)
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad]) result = true;
#endif

    return result;
}

// Check gamepad name (if available)
bool IsGamepadName(int gamepad, const char *name)
{
    bool result = false;

#if !defined(PLATFORM_ANDROID)
    const char *currentName = NULL;

    if (CORE.Input.Gamepad.ready[gamepad]) currentName = GetGamepadName(gamepad);
    if ((name != NULL) && (currentName != NULL)) result = (strcmp(name, currentName) == 0);
#endif

    return result;
}

// Return gamepad internal name id
const char *GetGamepadName(int gamepad)
{
#if defined(PLATFORM_DESKTOP)
    if (CORE.Input.Gamepad.ready[gamepad]) return glfwGetJoystickName(gamepad);
    else return NULL;
#elif defined(PLATFORM_RPI)
    if (CORE.Input.Gamepad.ready[gamepad]) ioctl(CORE.Input.Gamepad.streamId[gamepad], JSIOCGNAME(64), &CORE.Input.Gamepad.name);

    return CORE.Input.Gamepad.name;
#else
    return NULL;
#endif
}

// Return gamepad axis count
int GetGamepadAxisCount(int gamepad)
{
#if defined(PLATFORM_RPI)
    int axisCount = 0;
    if (CORE.Input.Gamepad.ready[gamepad]) ioctl(CORE.Input.Gamepad.streamId[gamepad], JSIOCGAXES, &axisCount);
    CORE.Input.Gamepad.axisCount = axisCount;
#endif
    return CORE.Input.Gamepad.axisCount;
}

// Return axis movement vector for a gamepad
float GetGamepadAxisMovement(int gamepad, int axis)
{
    float value = 0;

#if !defined(PLATFORM_ANDROID)
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (axis < MAX_GAMEPAD_AXIS)) value = CORE.Input.Gamepad.axisState[gamepad][axis];
#endif

    return value;
}

// Detect if a gamepad button has been pressed once
bool IsGamepadButtonPressed(int gamepad, int button)
{
    bool pressed = false;

#if !defined(PLATFORM_ANDROID)
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (button < MAX_GAMEPAD_BUTTONS) &&
        (CORE.Input.Gamepad.currentState[gamepad][button] != CORE.Input.Gamepad.previousState[gamepad][button]) &&
        (CORE.Input.Gamepad.currentState[gamepad][button] == 1)) pressed = true;
#endif

    return pressed;
}

// Detect if a gamepad button is being pressed
bool IsGamepadButtonDown(int gamepad, int button)
{
    bool result = false;

#if !defined(PLATFORM_ANDROID)
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (button < MAX_GAMEPAD_BUTTONS) &&
        (CORE.Input.Gamepad.currentState[gamepad][button] == 1)) result = true;
#endif

    return result;
}

// Detect if a gamepad button has NOT been pressed once
bool IsGamepadButtonReleased(int gamepad, int button)
{
    bool released = false;

#if !defined(PLATFORM_ANDROID)
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (button < MAX_GAMEPAD_BUTTONS) &&
        (CORE.Input.Gamepad.currentState[gamepad][button] != CORE.Input.Gamepad.previousState[gamepad][button]) &&
        (CORE.Input.Gamepad.currentState[gamepad][button] == 0)) released = true;
#endif

    return released;
}

// Detect if a mouse button is NOT being pressed
bool IsGamepadButtonUp(int gamepad, int button)
{
    bool result = false;

#if !defined(PLATFORM_ANDROID)
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (button < MAX_GAMEPAD_BUTTONS) &&
        (CORE.Input.Gamepad.currentState[gamepad][button] == 0)) result = true;
#endif

    return result;
}

// Get the last gamepad button pressed
int GetGamepadButtonPressed(void)
{
    return CORE.Input.Gamepad.lastButtonPressed;
}

// Detect if a mouse button has been pressed once
bool IsMouseButtonPressed(int button)
{
    bool pressed = false;

    if ((CORE.Input.Mouse.currentButtonState[button] == 1) && (CORE.Input.Mouse.previousButtonState[button] == 0)) pressed = true;

    // Map touches to mouse buttons checking
    if ((CORE.Input.Touch.currentTouchState[button] == 1) && (CORE.Input.Touch.previousTouchState[button] == 0)) pressed = true;

    return pressed;
}

// Detect if a mouse button is being pressed
bool IsMouseButtonDown(int button)
{
    bool down = false;

    if (CORE.Input.Mouse.currentButtonState[button] == 1) down = true;

    // Map touches to mouse buttons checking
    if (CORE.Input.Touch.currentTouchState[button] == 1) down = true;

    return down;
}

// Detect if a mouse button has been released once
bool IsMouseButtonReleased(int button)
{
    bool released = false;

    if ((CORE.Input.Mouse.currentButtonState[button] == 0) && (CORE.Input.Mouse.previousButtonState[button] == 1)) released = true;

    // Map touches to mouse buttons checking
    if ((CORE.Input.Touch.currentTouchState[button] == 0) && (CORE.Input.Touch.previousTouchState[button] == 1)) released = true;

    return released;
}

// Detect if a mouse button is NOT being pressed
bool IsMouseButtonUp(int button)
{
    return !IsMouseButtonDown(button);
}

// Returns mouse position X
int GetMouseX(void)
{
#if defined(PLATFORM_ANDROID)
    return (int)CORE.Input.Touch.position[0].x;
#else
    return (int)((CORE.Input.Mouse.position.x + CORE.Input.Mouse.offset.x)*CORE.Input.Mouse.scale.x);
#endif
}

// Returns mouse position Y
int GetMouseY(void)
{
#if defined(PLATFORM_ANDROID)
    return (int)CORE.Input.Touch.position[0].y;
#else
    return (int)((CORE.Input.Mouse.position.y + CORE.Input.Mouse.offset.y)*CORE.Input.Mouse.scale.y);
#endif
}

// Returns mouse position XY
Vector2 GetMousePosition(void)
{
    Vector2 position = { 0 };

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_WEB)
    position = GetTouchPosition(0);
#else
    position.x = (CORE.Input.Mouse.position.x + CORE.Input.Mouse.offset.x)*CORE.Input.Mouse.scale.x;
    position.y = (CORE.Input.Mouse.position.y + CORE.Input.Mouse.offset.y)*CORE.Input.Mouse.scale.y;
#endif

    return position;
}

// Set mouse position XY
void SetMousePosition(int x, int y)
{
    CORE.Input.Mouse.position = (Vector2){ (float)x, (float)y };
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
    // NOTE: emscripten not implemented
    glfwSetCursorPos(CORE.Window.handle, CORE.Input.Mouse.position.x, CORE.Input.Mouse.position.y);
#endif
#if defined(PLATFORM_UWP)
    UWPMessage *msg = CreateUWPMessage();
    msg->type = UWP_MSG_SET_MOUSE_LOCATION;
    msg->paramVector0.x = CORE.Input.Mouse.position.x;
    msg->paramVector0.y = CORE.Input.Mouse.position.y;
    SendMessageToUWP(msg);
#endif
}

// Set mouse offset
// NOTE: Useful when rendering to different size targets
void SetMouseOffset(int offsetX, int offsetY)
{
    CORE.Input.Mouse.offset = (Vector2){ (float)offsetX, (float)offsetY };
}

// Set mouse scaling
// NOTE: Useful when rendering to different size targets
void SetMouseScale(float scaleX, float scaleY)
{
    CORE.Input.Mouse.scale = (Vector2){ scaleX, scaleY };
}

// Returns mouse wheel movement Y
int GetMouseWheelMove(void)
{
#if defined(PLATFORM_ANDROID)
    return 0;
#elif defined(PLATFORM_WEB)
    return CORE.Input.Mouse.previousWheelMove/100;
#else
    return CORE.Input.Mouse.previousWheelMove;
#endif
}

// Returns touch position X for touch point 0 (relative to screen size)
int GetTouchX(void)
{
#if defined(PLATFORM_ANDROID) || defined(PLATFORM_WEB)
    return (int)CORE.Input.Touch.position[0].x;
#else   // PLATFORM_DESKTOP, PLATFORM_RPI
    return GetMouseX();
#endif
}

// Returns touch position Y for touch point 0 (relative to screen size)
int GetTouchY(void)
{
#if defined(PLATFORM_ANDROID) || defined(PLATFORM_WEB)
    return (int)CORE.Input.Touch.position[0].y;
#else   // PLATFORM_DESKTOP, PLATFORM_RPI
    return GetMouseY();
#endif
}

// Returns touch position XY for a touch point index (relative to screen size)
// TODO: Touch position should be scaled depending on display size and render size
Vector2 GetTouchPosition(int index)
{
    Vector2 position = { -1.0f, -1.0f };

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_WEB) || defined(PLATFORM_RPI)
    if (index < MAX_TOUCH_POINTS) position = CORE.Input.Touch.position[index];
    else TRACELOG(LOG_WARNING, "INPUT: Required touch point out of range (Max touch points: %i)", MAX_TOUCH_POINTS);

    #if defined(PLATFORM_ANDROID)
    if ((CORE.Window.screen.width > CORE.Window.display.width) || (CORE.Window.screen.height > CORE.Window.display.height))
    {
        position.x = position.x*((float)CORE.Window.screen.width/(float)(CORE.Window.display.width - CORE.Window.renderOffset.x)) - CORE.Window.renderOffset.x/2;
        position.y = position.y*((float)CORE.Window.screen.height/(float)(CORE.Window.display.height - CORE.Window.renderOffset.y)) - CORE.Window.renderOffset.y/2;
    }
    else
    {
        position.x = position.x*((float)CORE.Window.render.width/(float)CORE.Window.display.width) - CORE.Window.renderOffset.x/2;
        position.y = position.y*((float)CORE.Window.render.height/(float)CORE.Window.display.height) - CORE.Window.renderOffset.y/2;
    }
    #endif

#elif defined(PLATFORM_DESKTOP)
    // TODO: GLFW is not supporting multi-touch input just yet
    // https://www.codeproject.com/Articles/668404/Programming-for-Multi-Touch
    // https://docs.microsoft.com/en-us/windows/win32/wintouch/getting-started-with-multi-touch-messages
    if (index == 0) position = GetMousePosition();
#endif

    return position;
}

//----------------------------------------------------------------------------------
// Module specific Functions Definition
//----------------------------------------------------------------------------------

// Initialize display device and framebuffer
// NOTE: width and height represent the screen (framebuffer) desired size, not actual display size
// If width or height are 0, default display size will be used for framebuffer size
// NOTE: returns false in case graphic device could not be created
static bool InitGraphicsDevice(int width, int height)
{
    CORE.Window.screen.width = width;            // User desired width
    CORE.Window.screen.height = height;          // User desired height

    CORE.Window.screenScale = MatrixIdentity();  // No draw scaling required by default

    // NOTE: Framebuffer (render area - CORE.Window.render.width, CORE.Window.render.height) could include black bars...
    // ...in top-down or left-right to match display aspect ratio (no weird scalings)

#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
    glfwSetErrorCallback(ErrorCallback);

#if defined(__APPLE__)
    glfwInitHint(GLFW_COCOA_CHDIR_RESOURCES, GLFW_FALSE);
#endif

    if (!glfwInit())
    {
        TRACELOG(LOG_WARNING, "GLFW: Failed to initialize GLFW");
        return false;
    }

    // NOTE: Getting video modes is not implemented in emscripten GLFW3 version
#if defined(PLATFORM_DESKTOP)
    // Find monitor resolution
    GLFWmonitor *monitor = glfwGetPrimaryMonitor();
    if (!monitor)
    {
        TRACELOG(LOG_WARNING, "GLFW: Failed to get primary monitor");
        return false;
    }
    const GLFWvidmode *mode = glfwGetVideoMode(monitor);

    CORE.Window.display.width = mode->width;
    CORE.Window.display.height = mode->height;

    // Screen size security check
    if (CORE.Window.screen.width <= 0) CORE.Window.screen.width = CORE.Window.display.width;
    if (CORE.Window.screen.height <= 0) CORE.Window.screen.height = CORE.Window.display.height;
#endif  // PLATFORM_DESKTOP

#if defined(PLATFORM_WEB)
    CORE.Window.display.width = CORE.Window.screen.width;
    CORE.Window.display.height = CORE.Window.screen.height;
#endif  // PLATFORM_WEB

    glfwDefaultWindowHints();                       // Set default windows hints:
    //glfwWindowHint(GLFW_RED_BITS, 8);             // Framebuffer red color component bits
    //glfwWindowHint(GLFW_GREEN_BITS, 8);           // Framebuffer green color component bits
    //glfwWindowHint(GLFW_BLUE_BITS, 8);            // Framebuffer blue color component bits
    //glfwWindowHint(GLFW_ALPHA_BITS, 8);           // Framebuffer alpha color component bits
    //glfwWindowHint(GLFW_DEPTH_BITS, 24);          // Depthbuffer bits
    //glfwWindowHint(GLFW_REFRESH_RATE, 0);         // Refresh rate for fullscreen window
    //glfwWindowHint(GLFW_CLIENT_API, GLFW_OPENGL_API); // OpenGL API to use. Alternative: GLFW_OPENGL_ES_API
    //glfwWindowHint(GLFW_AUX_BUFFERS, 0);          // Number of auxiliar buffers
#if defined(PLATFORM_DESKTOP) && defined(SUPPORT_HIGH_DPI)
    // Resize window content area based on the monitor content scale.
    // NOTE: This hint only has an effect on platforms where screen coordinates and pixels always map 1:1 such as Windows and X11.
    // On platforms like macOS the resolution of the framebuffer is changed independently of the window size.
    glfwWindowHint(GLFW_SCALE_TO_MONITOR, GLFW_TRUE);   // Scale content area based on the monitor content scale where window is placed on
#endif

    // Check some Window creation flags
    if (CORE.Window.flags & FLAG_WINDOW_HIDDEN) glfwWindowHint(GLFW_VISIBLE, GL_FALSE);           // Visible window
    else glfwWindowHint(GLFW_VISIBLE, GL_TRUE);     // Window initially hidden

    if (CORE.Window.flags & FLAG_WINDOW_RESIZABLE) glfwWindowHint(GLFW_RESIZABLE, GL_TRUE);       // Resizable window
    else glfwWindowHint(GLFW_RESIZABLE, GL_FALSE);  // Avoid window being resizable

    if (CORE.Window.flags & FLAG_WINDOW_UNDECORATED) glfwWindowHint(GLFW_DECORATED, GLFW_FALSE);  // Border and buttons on Window
    else glfwWindowHint(GLFW_DECORATED, GLFW_TRUE);   // Decorated window
    // FLAG_WINDOW_TRANSPARENT not supported on HTML5 and not included in any released GLFW version yet
#if defined(GLFW_TRANSPARENT_FRAMEBUFFER)
    if (CORE.Window.flags & FLAG_WINDOW_TRANSPARENT) glfwWindowHint(GLFW_TRANSPARENT_FRAMEBUFFER, GLFW_TRUE);     // Transparent framebuffer
    else glfwWindowHint(GLFW_TRANSPARENT_FRAMEBUFFER, GLFW_FALSE);  // Opaque framebuffer
#endif

    if (CORE.Window.flags & FLAG_MSAA_4X_HINT) glfwWindowHint(GLFW_SAMPLES, 4);   // Tries to enable multisampling x4 (MSAA), default is 0

    // NOTE: When asking for an OpenGL context version, most drivers provide highest supported version
    // with forward compatibility to older OpenGL versions.
    // For example, if using OpenGL 1.1, driver can provide a 4.3 context forward compatible.

    // Check selection OpenGL version
    if (rlGetVersion() == OPENGL_21)
    {
        glfwWindowHint(GLFW_CONTEXT_VERSION_MAJOR, 2);          // Choose OpenGL major version (just hint)
        glfwWindowHint(GLFW_CONTEXT_VERSION_MINOR, 1);          // Choose OpenGL minor version (just hint)
    }
    else if (rlGetVersion() == OPENGL_33)
    {
        glfwWindowHint(GLFW_CONTEXT_VERSION_MAJOR, 3);          // Choose OpenGL major version (just hint)
        glfwWindowHint(GLFW_CONTEXT_VERSION_MINOR, 3);          // Choose OpenGL minor version (just hint)
        glfwWindowHint(GLFW_OPENGL_PROFILE, GLFW_OPENGL_CORE_PROFILE); // Profiles Hint: Only 3.3 and above!
                                                                       // Values: GLFW_OPENGL_CORE_PROFILE, GLFW_OPENGL_ANY_PROFILE, GLFW_OPENGL_COMPAT_PROFILE
#if defined(__APPLE__)
        glfwWindowHint(GLFW_OPENGL_FORWARD_COMPAT, GLFW_TRUE);  // OSX Requires fordward compatibility
#else
        glfwWindowHint(GLFW_OPENGL_FORWARD_COMPAT, GLFW_FALSE); // Fordward Compatibility Hint: Only 3.3 and above!
#endif
        //glfwWindowHint(GLFW_OPENGL_DEBUG_CONTEXT, GLFW_TRUE); // Request OpenGL DEBUG context
    }
    else if (rlGetVersion() == OPENGL_ES_20)                    // Request OpenGL ES 2.0 context
    {
        glfwWindowHint(GLFW_CONTEXT_VERSION_MAJOR, 2);
        glfwWindowHint(GLFW_CONTEXT_VERSION_MINOR, 0);
        glfwWindowHint(GLFW_CLIENT_API, GLFW_OPENGL_ES_API);
#if defined(PLATFORM_DESKTOP)
        glfwWindowHint(GLFW_CONTEXT_CREATION_API, GLFW_EGL_CONTEXT_API);
#else
        glfwWindowHint(GLFW_CONTEXT_CREATION_API, GLFW_NATIVE_CONTEXT_API);
#endif
    }

    if (CORE.Window.fullscreen)
    {
        // remember center for switchinging from fullscreen to window
        CORE.Window.position.x = CORE.Window.display.width/2 - CORE.Window.screen.width/2;
        CORE.Window.position.y = CORE.Window.display.height/2 - CORE.Window.screen.height/2;

        if (CORE.Window.position.x < 0) CORE.Window.position.x = 0;
        if (CORE.Window.position.y < 0) CORE.Window.position.y = 0;

        // Obtain recommended CORE.Window.display.width/CORE.Window.display.height from a valid videomode for the monitor
        int count = 0;
        const GLFWvidmode *modes = glfwGetVideoModes(glfwGetPrimaryMonitor(), &count);

        // Get closest video mode to desired CORE.Window.screen.width/CORE.Window.screen.height
        for (int i = 0; i < count; i++)
        {
            if (modes[i].width >= CORE.Window.screen.width)
            {
                if (modes[i].height >= CORE.Window.screen.height)
                {
                    CORE.Window.display.width = modes[i].width;
                    CORE.Window.display.height = modes[i].height;
                    break;
                }
            }
        }

#if defined(PLATFORM_DESKTOP)
        // If we are windowed fullscreen, ensures that window does not minimize when focus is lost
        if ((CORE.Window.screen.height == CORE.Window.display.height) && (CORE.Window.screen.width == CORE.Window.display.width))
        {
            glfwWindowHint(GLFW_AUTO_ICONIFY, 0);
        }
#endif

        TRACELOG(LOG_WARNING, "SYSTEM: Closest fullscreen videomode: %i x %i", CORE.Window.display.width, CORE.Window.display.height);

        // NOTE: ISSUE: Closest videomode could not match monitor aspect-ratio, for example,
        // for a desired screen size of 800x450 (16:9), closest supported videomode is 800x600 (4:3),
        // framebuffer is rendered correctly but once displayed on a 16:9 monitor, it gets stretched
        // by the sides to fit all monitor space...

        // Try to setup the most appropiate fullscreen framebuffer for the requested screenWidth/screenHeight
        // It considers device display resolution mode and setups a framebuffer with black bars if required (render size/offset)
        // Modified global variables: CORE.Window.screen.width/CORE.Window.screen.height - CORE.Window.render.width/CORE.Window.render.height - CORE.Window.renderOffset.x/CORE.Window.renderOffset.y - CORE.Window.screenScale
        // TODO: It is a quite cumbersome solution to display size vs requested size, it should be reviewed or removed...
        // HighDPI monitors are properly considered in a following similar function: SetupViewport()
        SetupFramebuffer(CORE.Window.display.width, CORE.Window.display.height);

        CORE.Window.handle = glfwCreateWindow(CORE.Window.display.width, CORE.Window.display.height, CORE.Window.title, glfwGetPrimaryMonitor(), NULL);

        // NOTE: Full-screen change, not working properly...
        //glfwSetWindowMonitor(CORE.Window.handle, glfwGetPrimaryMonitor(), 0, 0, CORE.Window.screen.width, CORE.Window.screen.height, GLFW_DONT_CARE);
    }
    else
    {
        // No-fullscreen window creation
        CORE.Window.handle = glfwCreateWindow(CORE.Window.screen.width, CORE.Window.screen.height, CORE.Window.title, NULL, NULL);

        if (CORE.Window.handle)
        {
#if defined(PLATFORM_DESKTOP)
            // Center window on screen
            int windowPosX = CORE.Window.display.width/2 - CORE.Window.screen.width/2;
            int windowPosY = CORE.Window.display.height/2 - CORE.Window.screen.height/2;

            if (windowPosX < 0) windowPosX = 0;
            if (windowPosY < 0) windowPosY = 0;

            glfwSetWindowPos(CORE.Window.handle, windowPosX, windowPosY);
#endif
            CORE.Window.render.width = CORE.Window.screen.width;
            CORE.Window.render.height = CORE.Window.screen.height;
        }
    }

    if (!CORE.Window.handle)
    {
        glfwTerminate();
        TRACELOG(LOG_WARNING, "GLFW: Failed to initialize Window");
        return false;
    }
    else
    {
        TRACELOG(LOG_INFO, "DISPLAY: Device initialized successfully");
#if defined(PLATFORM_DESKTOP)
        TRACELOG(LOG_INFO, "    > Display size: %i x %i", CORE.Window.display.width, CORE.Window.display.height);
#endif
        TRACELOG(LOG_INFO, "    > Render size:  %i x %i", CORE.Window.render.width, CORE.Window.render.height);
        TRACELOG(LOG_INFO, "    > Screen size:  %i x %i", CORE.Window.screen.width, CORE.Window.screen.height);
        TRACELOG(LOG_INFO, "    > Viewport offsets: %i, %i", CORE.Window.renderOffset.x, CORE.Window.renderOffset.y);
    }

    glfwSetWindowSizeCallback(CORE.Window.handle, WindowSizeCallback);      // NOTE: Resizing not allowed by default!
    glfwSetCursorEnterCallback(CORE.Window.handle, CursorEnterCallback);
    glfwSetKeyCallback(CORE.Window.handle, KeyCallback);
    glfwSetMouseButtonCallback(CORE.Window.handle, MouseButtonCallback);
    glfwSetCursorPosCallback(CORE.Window.handle, MouseCursorPosCallback);   // Track mouse position changes
    glfwSetCharCallback(CORE.Window.handle, CharCallback);
    glfwSetScrollCallback(CORE.Window.handle, ScrollCallback);
    glfwSetWindowIconifyCallback(CORE.Window.handle, WindowIconifyCallback);
    glfwSetDropCallback(CORE.Window.handle, WindowDropCallback);

    glfwMakeContextCurrent(CORE.Window.handle);

#if !defined(PLATFORM_WEB)
    glfwSwapInterval(0);        // No V-Sync by default
#endif

#if defined(PLATFORM_DESKTOP)
    // Load OpenGL 3.3 extensions
    // NOTE: GLFW loader function is passed as parameter
    rlLoadExtensions(glfwGetProcAddress);
#endif

    // Try to enable GPU V-Sync, so frames are limited to screen refresh rate (60Hz -> 60 FPS)
    // NOTE: V-Sync can be enabled by graphic driver configuration
    if (CORE.Window.flags & FLAG_VSYNC_HINT)
    {
        // WARNING: It seems to hits a critical render path in Intel HD Graphics
        glfwSwapInterval(1);
        TRACELOG(LOG_INFO, "DISPLAY: Trying to enable VSYNC");
    }
#endif // PLATFORM_DESKTOP || PLATFORM_WEB

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI) || defined(PLATFORM_UWP)
    CORE.Window.fullscreen = true;

    // Screen size security check
    if (CORE.Window.screen.width <= 0) CORE.Window.screen.width = CORE.Window.display.width;
    if (CORE.Window.screen.height <= 0) CORE.Window.screen.height = CORE.Window.display.height;

#if defined(PLATFORM_RPI)
    bcm_host_init();

    DISPMANX_ELEMENT_HANDLE_T dispmanElement;
    DISPMANX_DISPLAY_HANDLE_T dispmanDisplay;
    DISPMANX_UPDATE_HANDLE_T dispmanUpdate;

    VC_RECT_T dstRect;
    VC_RECT_T srcRect;
#endif

    EGLint samples = 0;
    EGLint sampleBuffer = 0;
    if (CORE.Window.flags & FLAG_MSAA_4X_HINT)
    {
        samples = 4;
        sampleBuffer = 1;
        TRACELOG(LOG_INFO, "DISPLAY: Trying to enable MSAA x4");
    }

    const EGLint framebufferAttribs[] =
    {
        EGL_RENDERABLE_TYPE, EGL_OPENGL_ES2_BIT,     // Type of context support -> Required on RPI?
        //EGL_SURFACE_TYPE, EGL_WINDOW_BIT,          // Don't use it on Android!
        EGL_RED_SIZE, 8,            // RED color bit depth (alternative: 5)
        EGL_GREEN_SIZE, 8,          // GREEN color bit depth (alternative: 6)
        EGL_BLUE_SIZE, 8,           // BLUE color bit depth (alternative: 5)
        //EGL_ALPHA_SIZE, 8,        // ALPHA bit depth (required for transparent framebuffer)
        //EGL_TRANSPARENT_TYPE, EGL_NONE, // Request transparent framebuffer (EGL_TRANSPARENT_RGB does not work on RPI)
        EGL_DEPTH_SIZE, 16,         // Depth buffer size (Required to use Depth testing!)
        //EGL_STENCIL_SIZE, 8,      // Stencil buffer size
        EGL_SAMPLE_BUFFERS, sampleBuffer,    // Activate MSAA
        EGL_SAMPLES, samples,       // 4x Antialiasing if activated (Free on MALI GPUs)
        EGL_NONE
    };

    const EGLint contextAttribs[] =
    {
        EGL_CONTEXT_CLIENT_VERSION, 2,
        EGL_NONE
    };

#if defined(PLATFORM_UWP)
    const EGLint surfaceAttributes[] =
    {
        // EGL_ANGLE_SURFACE_RENDER_TO_BACK_BUFFER is part of the same optimization as EGL_ANGLE_DISPLAY_ALLOW_RENDER_TO_BACK_BUFFER (see above).
        // If you have compilation issues with it then please update your Visual Studio templates.
        EGL_ANGLE_SURFACE_RENDER_TO_BACK_BUFFER, EGL_TRUE,
        EGL_NONE
    };

    const EGLint defaultDisplayAttributes[] =
    {
        // These are the default display attributes, used to request ANGLE's D3D11 renderer.
        // eglInitialize will only succeed with these attributes if the hardware supports D3D11 Feature Level 10_0+.
        EGL_PLATFORM_ANGLE_TYPE_ANGLE, EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE,

        // EGL_ANGLE_DISPLAY_ALLOW_RENDER_TO_BACK_BUFFER is an optimization that can have large performance benefits on mobile devices.
        // Its syntax is subject to change, though. Please update your Visual Studio templates if you experience compilation issues with it.
        EGL_ANGLE_DISPLAY_ALLOW_RENDER_TO_BACK_BUFFER, EGL_TRUE,

        // EGL_PLATFORM_ANGLE_ENABLE_AUTOMATIC_TRIM_ANGLE is an option that enables ANGLE to automatically call
        // the IDXGIDevice3::Trim method on behalf of the application when it gets suspended.
        // Calling IDXGIDevice3::Trim when an application is suspended is a Windows Store application certification requirement.
        EGL_PLATFORM_ANGLE_ENABLE_AUTOMATIC_TRIM_ANGLE, EGL_TRUE,
        EGL_NONE,
    };

    const EGLint fl9_3DisplayAttributes[] =
    {
        // These can be used to request ANGLE's D3D11 renderer, with D3D11 Feature Level 9_3.
        // These attributes are used if the call to eglInitialize fails with the default display attributes.
        EGL_PLATFORM_ANGLE_TYPE_ANGLE, EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE,
        EGL_PLATFORM_ANGLE_MAX_VERSION_MAJOR_ANGLE, 9,
        EGL_PLATFORM_ANGLE_MAX_VERSION_MINOR_ANGLE, 3,
        EGL_ANGLE_DISPLAY_ALLOW_RENDER_TO_BACK_BUFFER, EGL_TRUE,
        EGL_PLATFORM_ANGLE_ENABLE_AUTOMATIC_TRIM_ANGLE, EGL_TRUE,
        EGL_NONE,
    };

    const EGLint warpDisplayAttributes[] =
    {
        // These attributes can be used to request D3D11 WARP.
        // They are used if eglInitialize fails with both the default display attributes and the 9_3 display attributes.
        EGL_PLATFORM_ANGLE_TYPE_ANGLE, EGL_PLATFORM_ANGLE_TYPE_D3D11_ANGLE,
        EGL_PLATFORM_ANGLE_DEVICE_TYPE_ANGLE, EGL_PLATFORM_ANGLE_DEVICE_TYPE_WARP_ANGLE,
        EGL_ANGLE_DISPLAY_ALLOW_RENDER_TO_BACK_BUFFER, EGL_TRUE,
        EGL_PLATFORM_ANGLE_ENABLE_AUTOMATIC_TRIM_ANGLE, EGL_TRUE,
        EGL_NONE,
    };

    // eglGetPlatformDisplayEXT is an alternative to eglGetDisplay. It allows us to pass in display attributes, used to configure D3D11.
    PFNEGLGETPLATFORMDISPLAYEXTPROC eglGetPlatformDisplayEXT = (PFNEGLGETPLATFORMDISPLAYEXTPROC)(eglGetProcAddress("eglGetPlatformDisplayEXT"));
    if (!eglGetPlatformDisplayEXT)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to get function eglGetPlatformDisplayEXT");
        return false;
    }

    //
    // To initialize the display, we make three sets of calls to eglGetPlatformDisplayEXT and eglInitialize, with varying
    // parameters passed to eglGetPlatformDisplayEXT:
    // 1) The first calls uses "defaultDisplayAttributes" as a parameter. This corresponds to D3D11 Feature Level 10_0+.
    // 2) If eglInitialize fails for step 1 (e.g. because 10_0+ isn't supported by the default GPU), then we try again
    //    using "fl9_3DisplayAttributes". This corresponds to D3D11 Feature Level 9_3.
    // 3) If eglInitialize fails for step 2 (e.g. because 9_3+ isn't supported by the default GPU), then we try again
    //    using "warpDisplayAttributes".  This corresponds to D3D11 Feature Level 11_0 on WARP, a D3D11 software rasterizer.
    //

    // This tries to initialize EGL to D3D11 Feature Level 10_0+. See above comment for details.
    CORE.Window.device = eglGetPlatformDisplayEXT(EGL_PLATFORM_ANGLE_ANGLE, EGL_DEFAULT_DISPLAY, defaultDisplayAttributes);
    if (CORE.Window.device == EGL_NO_DISPLAY)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to initialize EGL device");
        return false;
    }

    if (eglInitialize(CORE.Window.device, NULL, NULL) == EGL_FALSE)
    {
        // This tries to initialize EGL to D3D11 Feature Level 9_3, if 10_0+ is unavailable (e.g. on some mobile devices).
        CORE.Window.device = eglGetPlatformDisplayEXT(EGL_PLATFORM_ANGLE_ANGLE, EGL_DEFAULT_DISPLAY, fl9_3DisplayAttributes);
        if (CORE.Window.device == EGL_NO_DISPLAY)
        {
            TRACELOG(LOG_WARNING, "DISPLAY: Failed to initialize EGL device");
            return false;
        }

        if (eglInitialize(CORE.Window.device, NULL, NULL) == EGL_FALSE)
        {
            // This initializes EGL to D3D11 Feature Level 11_0 on WARP, if 9_3+ is unavailable on the default GPU.
            CORE.Window.device = eglGetPlatformDisplayEXT(EGL_PLATFORM_ANGLE_ANGLE, EGL_DEFAULT_DISPLAY, warpDisplayAttributes);
            if (CORE.Window.device == EGL_NO_DISPLAY)
            {
                TRACELOG(LOG_WARNING, "DISPLAY: Failed to initialize EGL device");
                return false;
            }

            if (eglInitialize(CORE.Window.device, NULL, NULL) == EGL_FALSE)
            {
                // If all of the calls to eglInitialize returned EGL_FALSE then an error has occurred.
                TRACELOG(LOG_WARNING, "DISPLAY: Failed to initialize EGL device");
                return false;
            }
        }
    }

    EGLint numConfigs = 0;
    if ((eglChooseConfig(CORE.Window.device, framebufferAttribs, &CORE.Window.config, 1, &numConfigs) == EGL_FALSE) || (numConfigs == 0))
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to choose first EGL configuration");
        return false;
    }

    // Create a PropertySet and initialize with the EGLNativeWindowType.
    //PropertySet^ surfaceCreationProperties = ref new PropertySet();
    //surfaceCreationProperties->Insert(ref new String(EGLNativeWindowTypeProperty), window);     // CoreWindow^ window

    // You can configure the surface to render at a lower resolution and be scaled up to
    // the full window size. The scaling is often free on mobile hardware.
    //
    // One way to configure the SwapChainPanel is to specify precisely which resolution it should render at.
    // Size customRenderSurfaceSize = Size(800, 600);
    // surfaceCreationProperties->Insert(ref new String(EGLRenderSurfaceSizeProperty), PropertyValue::CreateSize(customRenderSurfaceSize));
    //
    // Another way is to tell the SwapChainPanel to render at a certain scale factor compared to its size.
    // e.g. if the SwapChainPanel is 1920x1280 then setting a factor of 0.5f will make the app render at 960x640
    // float customResolutionScale = 0.5f;
    // surfaceCreationProperties->Insert(ref new String(EGLRenderResolutionScaleProperty), PropertyValue::CreateSingle(customResolutionScale));


    // eglCreateWindowSurface() requires a EGLNativeWindowType parameter,
    // In Windows platform: typedef HWND EGLNativeWindowType;


    // Property: EGLNativeWindowTypeProperty
    // Type: IInspectable
    // Description: Set this property to specify the window type to use for creating a surface.
    //              If this property is missing, surface creation will fail.
    //
    //const wchar_t EGLNativeWindowTypeProperty[] = L"EGLNativeWindowTypeProperty";

    //https://stackoverflow.com/questions/46550182/how-to-create-eglsurface-using-c-winrt-and-angle

    //CORE.Window.surface = eglCreateWindowSurface(CORE.Window.device, CORE.Window.config, reinterpret_cast<IInspectable*>(surfaceCreationProperties), surfaceAttributes);
    CORE.Window.surface = eglCreateWindowSurface(CORE.Window.device, CORE.Window.config, handle, surfaceAttributes);
    if (CORE.Window.surface == EGL_NO_SURFACE)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to create EGL fullscreen surface");
        return false;
    }

    CORE.Window.context = eglCreateContext(CORE.Window.device, CORE.Window.config, EGL_NO_CONTEXT, contextAttribs);
    if (CORE.Window.context == EGL_NO_CONTEXT)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to create EGL context");
        return false;
    }

    // Get EGL device window size
    eglQuerySurface(CORE.Window.device, CORE.Window.surface, EGL_WIDTH, &CORE.Window.screen.width);
    eglQuerySurface(CORE.Window.device, CORE.Window.surface, EGL_HEIGHT, &CORE.Window.screen.height);

#else   // PLATFORM_ANDROID, PLATFORM_RPI
    EGLint numConfigs;

    // Get an EGL device connection
    CORE.Window.device = eglGetDisplay(EGL_DEFAULT_DISPLAY);
    if (CORE.Window.device == EGL_NO_DISPLAY)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to initialize EGL device");
        return false;
    }

    // Initialize the EGL device connection
    if (eglInitialize(CORE.Window.device, NULL, NULL) == EGL_FALSE)
    {
        // If all of the calls to eglInitialize returned EGL_FALSE then an error has occurred.
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to initialize EGL device");
        return false;
    }

    // Get an appropriate EGL framebuffer configuration
    eglChooseConfig(CORE.Window.device, framebufferAttribs, &CORE.Window.config, 1, &numConfigs);

    // Set rendering API
    eglBindAPI(EGL_OPENGL_ES_API);

    // Create an EGL rendering context
    CORE.Window.context = eglCreateContext(CORE.Window.device, CORE.Window.config, EGL_NO_CONTEXT, contextAttribs);
    if (CORE.Window.context == EGL_NO_CONTEXT)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to create EGL context");
        return false;
    }
#endif

    // Create an EGL window surface
    //---------------------------------------------------------------------------------
#if defined(PLATFORM_ANDROID)
    EGLint displayFormat;

    // EGL_NATIVE_VISUAL_ID is an attribute of the EGLConfig that is guaranteed to be accepted by ANativeWindow_setBuffersGeometry()
    // As soon as we picked a EGLConfig, we can safely reconfigure the ANativeWindow buffers to match, using EGL_NATIVE_VISUAL_ID
    eglGetConfigAttrib(CORE.Window.device, CORE.Window.config, EGL_NATIVE_VISUAL_ID, &displayFormat);

    // At this point we need to manage render size vs screen size
    // NOTE: This function use and modify global module variables: CORE.Window.screen.width/CORE.Window.screen.height and CORE.Window.render.width/CORE.Window.render.height and CORE.Window.screenScale
    SetupFramebuffer(CORE.Window.display.width, CORE.Window.display.height);

    ANativeWindow_setBuffersGeometry(CORE.Android.app->window, CORE.Window.render.width, CORE.Window.render.height, displayFormat);
    //ANativeWindow_setBuffersGeometry(CORE.Android.app->window, 0, 0, displayFormat);       // Force use of native display size

    CORE.Window.surface = eglCreateWindowSurface(CORE.Window.device, CORE.Window.config, CORE.Android.app->window, NULL);
#endif  // PLATFORM_ANDROID

#if defined(PLATFORM_RPI)
    graphics_get_display_size(0, &CORE.Window.display.width, &CORE.Window.display.height);

    // At this point we need to manage render size vs screen size
    // NOTE: This function use and modify global module variables: CORE.Window.screen.width/CORE.Window.screen.height and CORE.Window.render.width/CORE.Window.render.height and CORE.Window.screenScale
    SetupFramebuffer(CORE.Window.display.width, CORE.Window.display.height);

    dstRect.x = 0;
    dstRect.y = 0;
    dstRect.width = CORE.Window.display.width;
    dstRect.height = CORE.Window.display.height;

    srcRect.x = 0;
    srcRect.y = 0;
    srcRect.width = CORE.Window.render.width << 16;
    srcRect.height = CORE.Window.render.height << 16;

    // NOTE: RPI dispmanx windowing system takes care of srcRec scaling to dstRec by hardware (no cost)
    // Take care that renderWidth/renderHeight fit on displayWidth/displayHeight aspect ratio

    VC_DISPMANX_ALPHA_T alpha;
    alpha.flags = DISPMANX_FLAGS_ALPHA_FIXED_ALL_PIXELS;
    //alpha.flags = DISPMANX_FLAGS_ALPHA_FROM_SOURCE;       // TODO: Allow transparent framebuffer! -> FLAG_WINDOW_TRANSPARENT
    alpha.opacity = 255;    // Set transparency level for framebuffer, requires EGLAttrib: EGL_TRANSPARENT_TYPE
    alpha.mask = 0;

    dispmanDisplay = vc_dispmanx_display_open(0);   // LCD
    dispmanUpdate = vc_dispmanx_update_start(0);

    dispmanElement = vc_dispmanx_element_add(dispmanUpdate, dispmanDisplay, 0/*layer*/, &dstRect, 0/*src*/,
                                            &srcRect, DISPMANX_PROTECTION_NONE, &alpha, 0/*clamp*/, DISPMANX_NO_ROTATE);

    CORE.Window.handle.element = dispmanElement;
    CORE.Window.handle.width = CORE.Window.render.width;
    CORE.Window.handle.height = CORE.Window.render.height;
    vc_dispmanx_update_submit_sync(dispmanUpdate);

    CORE.Window.surface = eglCreateWindowSurface(CORE.Window.device, CORE.Window.config, &CORE.Window.handle, NULL);
    //---------------------------------------------------------------------------------
#endif  // PLATFORM_RPI

    // There must be at least one frame displayed before the buffers are swapped
    //eglSwapInterval(CORE.Window.device, 1);

    if (eglMakeCurrent(CORE.Window.device, CORE.Window.surface, CORE.Window.surface, CORE.Window.context) == EGL_FALSE)
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Failed to attach EGL rendering context to EGL surface");
        return false;
    }
    else
    {
        // Grab the width and height of the surface
        //eglQuerySurface(CORE.Window.device, CORE.Window.surface, EGL_WIDTH, &CORE.Window.render.width);
        //eglQuerySurface(CORE.Window.device, CORE.Window.surface, EGL_HEIGHT, &CORE.Window.render.height);

        TRACELOG(LOG_INFO, "DISPLAY: Device initialized successfully");
        TRACELOG(LOG_INFO, "    > Display size: %i x %i", CORE.Window.display.width, CORE.Window.display.height);
        TRACELOG(LOG_INFO, "    > Render size:  %i x %i", CORE.Window.render.width, CORE.Window.render.height);
        TRACELOG(LOG_INFO, "    > Screen size:  %i x %i", CORE.Window.screen.width, CORE.Window.screen.height);
        TRACELOG(LOG_INFO, "    > Viewport offsets: %i, %i", CORE.Window.renderOffset.x, CORE.Window.renderOffset.y);
    }
#endif // PLATFORM_ANDROID || PLATFORM_RPI

    // Initialize OpenGL context (states and resources)
    // NOTE: CORE.Window.screen.width and CORE.Window.screen.height not used, just stored as globals in rlgl
    rlglInit(CORE.Window.screen.width, CORE.Window.screen.height);

    int fbWidth = CORE.Window.render.width;
    int fbHeight = CORE.Window.render.height;

#if defined(PLATFORM_DESKTOP) && defined(SUPPORT_HIGH_DPI)
    glfwGetFramebufferSize(CORE.Window.handle, &fbWidth, &fbHeight);

    // Screen scaling matrix is required in case desired screen area is different than display area
    CORE.Window.screenScale = MatrixScale((float)fbWidth/CORE.Window.screen.width, (float)fbHeight/CORE.Window.screen.height, 1.0f);
#if !defined(__APPLE__)
    SetMouseScale((float)CORE.Window.screen.width/fbWidth, (float)CORE.Window.screen.height/fbHeight);
#endif
#endif  // PLATFORM_DESKTOP && SUPPORT_HIGH_DPI

    // Setup default viewport
    SetupViewport(fbWidth, fbHeight);

    CORE.Window.currentFbo.width = CORE.Window.screen.width;
    CORE.Window.currentFbo.height = CORE.Window.screen.height;

    ClearBackground(RAYWHITE);      // Default background color for raylib games :P

#if defined(PLATFORM_ANDROID)
    CORE.Window.ready = true;
#endif
    return true;
}

// Set viewport for a provided width and height
static void SetupViewport(int width, int height)
{
    CORE.Window.render.width = width;
    CORE.Window.render.height = height;

    // Set viewport width and height
    // NOTE: We consider render size and offset in case black bars are required and
    // render area does not match full display area (this situation is only applicable on fullscreen mode)
    rlViewport(CORE.Window.renderOffset.x/2, CORE.Window.renderOffset.y/2, CORE.Window.render.width - CORE.Window.renderOffset.x, CORE.Window.render.height - CORE.Window.renderOffset.y);

    rlMatrixMode(RL_PROJECTION);        // Switch to PROJECTION matrix
    rlLoadIdentity();                   // Reset current matrix (PROJECTION)

    // Set orthographic projection to current framebuffer size
    // NOTE: Configured top-left corner as (0, 0)
    rlOrtho(0, CORE.Window.render.width, CORE.Window.render.height, 0, 0.0f, 1.0f);

    rlMatrixMode(RL_MODELVIEW);         // Switch back to MODELVIEW matrix
    rlLoadIdentity();                   // Reset current matrix (MODELVIEW)
}

// Compute framebuffer size relative to screen size and display size
// NOTE: Global variables CORE.Window.render.width/CORE.Window.render.height and CORE.Window.renderOffset.x/CORE.Window.renderOffset.y can be modified
static void SetupFramebuffer(int width, int height)
{
    // Calculate CORE.Window.render.width and CORE.Window.render.height, we have the display size (input params) and the desired screen size (global var)
    if ((CORE.Window.screen.width > CORE.Window.display.width) || (CORE.Window.screen.height > CORE.Window.display.height))
    {
        TRACELOG(LOG_WARNING, "DISPLAY: Downscaling required: Screen size (%ix%i) is bigger than display size (%ix%i)", CORE.Window.screen.width, CORE.Window.screen.height, CORE.Window.display.width, CORE.Window.display.height);

        // Downscaling to fit display with border-bars
        float widthRatio = (float)CORE.Window.display.width/(float)CORE.Window.screen.width;
        float heightRatio = (float)CORE.Window.display.height/(float)CORE.Window.screen.height;

        if (widthRatio <= heightRatio)
        {
            CORE.Window.render.width = CORE.Window.display.width;
            CORE.Window.render.height = (int)round((float)CORE.Window.screen.height*widthRatio);
            CORE.Window.renderOffset.x = 0;
            CORE.Window.renderOffset.y = (CORE.Window.display.height - CORE.Window.render.height);
        }
        else
        {
            CORE.Window.render.width = (int)round((float)CORE.Window.screen.width*heightRatio);
            CORE.Window.render.height = CORE.Window.display.height;
            CORE.Window.renderOffset.x = (CORE.Window.display.width - CORE.Window.render.width);
            CORE.Window.renderOffset.y = 0;
        }

        // Screen scaling required
        float scaleRatio = (float)CORE.Window.render.width/(float)CORE.Window.screen.width;
        CORE.Window.screenScale = MatrixScale(scaleRatio, scaleRatio, 1.0f);

        // NOTE: We render to full display resolution!
        // We just need to calculate above parameters for downscale matrix and offsets
        CORE.Window.render.width = CORE.Window.display.width;
        CORE.Window.render.height = CORE.Window.display.height;

        TRACELOG(LOG_WARNING, "DISPLAY: Downscale matrix generated, content will be rendered at (%ix%i)", CORE.Window.render.width, CORE.Window.render.height);
    }
    else if ((CORE.Window.screen.width < CORE.Window.display.width) || (CORE.Window.screen.height < CORE.Window.display.height))
    {
        // Required screen size is smaller than display size
        TRACELOG(LOG_INFO, "DISPLAY: Upscaling required: Screen size (%ix%i) smaller than display size (%ix%i)", CORE.Window.screen.width, CORE.Window.screen.height, CORE.Window.display.width, CORE.Window.display.height);

        // Upscaling to fit display with border-bars
        float displayRatio = (float)CORE.Window.display.width/(float)CORE.Window.display.height;
        float screenRatio = (float)CORE.Window.screen.width/(float)CORE.Window.screen.height;

        if (displayRatio <= screenRatio)
        {
            CORE.Window.render.width = CORE.Window.screen.width;
            CORE.Window.render.height = (int)round((float)CORE.Window.screen.width/displayRatio);
            CORE.Window.renderOffset.x = 0;
            CORE.Window.renderOffset.y = (CORE.Window.render.height - CORE.Window.screen.height);
        }
        else
        {
            CORE.Window.render.width = (int)round((float)CORE.Window.screen.height*displayRatio);
            CORE.Window.render.height = CORE.Window.screen.height;
            CORE.Window.renderOffset.x = (CORE.Window.render.width - CORE.Window.screen.width);
            CORE.Window.renderOffset.y = 0;
        }
    }
    else
    {
        CORE.Window.render.width = CORE.Window.screen.width;
        CORE.Window.render.height = CORE.Window.screen.height;
        CORE.Window.renderOffset.x = 0;
        CORE.Window.renderOffset.y = 0;
    }
}

// Initialize hi-resolution timer
static void InitTimer(void)
{
    srand((unsigned int)time(NULL));              // Initialize random seed

#if !defined(SUPPORT_BUSY_WAIT_LOOP) && defined(_WIN32)
    timeBeginPeriod(1);             // Setup high-resolution timer to 1ms (granularity of 1-2 ms)
#endif

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI)
    struct timespec now;

    if (clock_gettime(CLOCK_MONOTONIC, &now) == 0)  // Success
    {
        CORE.Time.base = (unsigned long long int)now.tv_sec*1000000000LLU + (unsigned long long int)now.tv_nsec;
    }
    else TRACELOG(LOG_WARNING, "TIMER: Hi-resolution timer not available");
#endif

    CORE.Time.previous = GetTime();       // Get time as double
}

// Wait for some milliseconds (stop program execution)
// NOTE: Sleep() granularity could be around 10 ms, it means, Sleep() could
// take longer than expected... for that reason we use the busy wait loop
// Ref: http://stackoverflow.com/questions/43057578/c-programming-win32-games-sleep-taking-longer-than-expected
// Ref: http://www.geisswerks.com/ryan/FAQS/timing.html --> All about timming on Win32!
static void Wait(float ms)
{
#if defined(SUPPORT_BUSY_WAIT_LOOP) && !defined(PLATFORM_UWP)
    double prevTime = GetTime();
    double nextTime = 0.0;

    // Busy wait loop
    while ((nextTime - prevTime) < ms/1000.0f) nextTime = GetTime();
#else
    #if defined(SUPPORT_HALFBUSY_WAIT_LOOP)
        #define MAX_HALFBUSY_WAIT_TIME  4
        double destTime = GetTime() + ms/1000;
        if (ms > MAX_HALFBUSY_WAIT_TIME) ms -= MAX_HALFBUSY_WAIT_TIME;
    #endif

    #if defined(_WIN32)
        Sleep((unsigned int)ms);
    #elif defined(__linux__) || defined(PLATFORM_WEB)
        struct timespec req = { 0 };
        time_t sec = (int)(ms/1000.0f);
        ms -= (sec*1000);
        req.tv_sec = sec;
        req.tv_nsec = ms*1000000L;

        // NOTE: Use nanosleep() on Unix platforms... usleep() it's deprecated.
        while (nanosleep(&req, &req) == -1) continue;
    #elif defined(__APPLE__)
        usleep(ms*1000.0f);
    #endif

    #if defined(SUPPORT_HALFBUSY_WAIT_LOOP)
        while (GetTime() < destTime) { }
    #endif
#endif
}

// Get gamepad button generic to all platforms
static int GetGamepadButton(int button)
{
    int btn = GAMEPAD_BUTTON_UNKNOWN;
#if defined(PLATFORM_DESKTOP)
    switch (button)
    {
        case GLFW_GAMEPAD_BUTTON_Y: btn = GAMEPAD_BUTTON_RIGHT_FACE_UP; break;
        case GLFW_GAMEPAD_BUTTON_B: btn = GAMEPAD_BUTTON_RIGHT_FACE_RIGHT; break;
        case GLFW_GAMEPAD_BUTTON_A: btn = GAMEPAD_BUTTON_RIGHT_FACE_DOWN; break;
        case GLFW_GAMEPAD_BUTTON_X: btn = GAMEPAD_BUTTON_RIGHT_FACE_LEFT; break;

        case GLFW_GAMEPAD_BUTTON_LEFT_BUMPER: btn = GAMEPAD_BUTTON_LEFT_TRIGGER_1; break;
        case GLFW_GAMEPAD_BUTTON_RIGHT_BUMPER: btn = GAMEPAD_BUTTON_RIGHT_TRIGGER_1; break;

        case GLFW_GAMEPAD_BUTTON_BACK: btn = GAMEPAD_BUTTON_MIDDLE_LEFT; break;
        case GLFW_GAMEPAD_BUTTON_GUIDE: btn = GAMEPAD_BUTTON_MIDDLE; break;
        case GLFW_GAMEPAD_BUTTON_START: btn = GAMEPAD_BUTTON_MIDDLE_RIGHT; break;

        case GLFW_GAMEPAD_BUTTON_DPAD_UP: btn = GAMEPAD_BUTTON_LEFT_FACE_UP; break;
        case GLFW_GAMEPAD_BUTTON_DPAD_RIGHT: btn = GAMEPAD_BUTTON_LEFT_FACE_RIGHT; break;
        case GLFW_GAMEPAD_BUTTON_DPAD_DOWN: btn = GAMEPAD_BUTTON_LEFT_FACE_DOWN; break;
        case GLFW_GAMEPAD_BUTTON_DPAD_LEFT: btn = GAMEPAD_BUTTON_LEFT_FACE_LEFT; break;

        case GLFW_GAMEPAD_BUTTON_LEFT_THUMB: btn = GAMEPAD_BUTTON_LEFT_THUMB; break;
        case GLFW_GAMEPAD_BUTTON_RIGHT_THUMB: btn = GAMEPAD_BUTTON_RIGHT_THUMB; break;
    }
#endif

#if defined(PLATFORM_UWP)
    btn = button;   // UWP will provide the correct button
#endif

#if defined(PLATFORM_WEB)
    // Gamepad Buttons reference: https://www.w3.org/TR/gamepad/#gamepad-interface
    switch (button)
    {
        case 0: btn = GAMEPAD_BUTTON_RIGHT_FACE_DOWN; break;
        case 1: btn = GAMEPAD_BUTTON_RIGHT_FACE_RIGHT; break;
        case 2: btn = GAMEPAD_BUTTON_RIGHT_FACE_LEFT; break;
        case 3: btn = GAMEPAD_BUTTON_RIGHT_FACE_UP; break;
        case 4: btn = GAMEPAD_BUTTON_LEFT_TRIGGER_1; break;
        case 5: btn = GAMEPAD_BUTTON_RIGHT_TRIGGER_1; break;
        case 6: btn = GAMEPAD_BUTTON_LEFT_TRIGGER_2; break;
        case 7: btn = GAMEPAD_BUTTON_RIGHT_TRIGGER_2; break;
        case 8: btn = GAMEPAD_BUTTON_MIDDLE_LEFT; break;
        case 9: btn = GAMEPAD_BUTTON_MIDDLE_RIGHT; break;
        case 10: btn = GAMEPAD_BUTTON_LEFT_THUMB; break;
        case 11: btn = GAMEPAD_BUTTON_RIGHT_THUMB; break;
        case 12: btn = GAMEPAD_BUTTON_LEFT_FACE_UP; break;
        case 13: btn = GAMEPAD_BUTTON_LEFT_FACE_DOWN; break;
        case 14: btn = GAMEPAD_BUTTON_LEFT_FACE_LEFT; break;
        case 15: btn = GAMEPAD_BUTTON_LEFT_FACE_RIGHT; break;
    }
#endif

    return btn;
}

// Get gamepad axis generic to all platforms
static int GetGamepadAxis(int axis)
{
    int axs = GAMEPAD_AXIS_UNKNOWN;
#if defined(PLATFORM_DESKTOP)
    switch (axis)
    {
        case GLFW_GAMEPAD_AXIS_LEFT_X: axs = GAMEPAD_AXIS_LEFT_X; break;
        case GLFW_GAMEPAD_AXIS_LEFT_Y: axs = GAMEPAD_AXIS_LEFT_Y; break;
        case GLFW_GAMEPAD_AXIS_RIGHT_X: axs = GAMEPAD_AXIS_RIGHT_X; break;
        case GLFW_GAMEPAD_AXIS_RIGHT_Y: axs = GAMEPAD_AXIS_RIGHT_Y; break;
        case GLFW_GAMEPAD_AXIS_LEFT_TRIGGER: axs = GAMEPAD_AXIS_LEFT_TRIGGER; break;
        case GLFW_GAMEPAD_AXIS_RIGHT_TRIGGER: axs = GAMEPAD_AXIS_RIGHT_TRIGGER; break;
    }
#endif

#if defined(PLATFORM_UWP)
    axs = axis;     // UWP will provide the correct axis
#endif

#if defined(PLATFORM_WEB)
    // Gamepad axis reference:https://www.w3.org/TR/gamepad/#gamepad-interface
    switch (axis)
    {
        case 0: axs = GAMEPAD_AXIS_LEFT_X;
        case 1: axs = GAMEPAD_AXIS_LEFT_Y;
        case 2: axs = GAMEPAD_AXIS_RIGHT_X;
        case 3: axs = GAMEPAD_AXIS_RIGHT_X;
    }
#endif

    return axs;
}

// Poll (store) all input events
static void PollInputEvents(void)
{
#if defined(SUPPORT_GESTURES_SYSTEM)
    // NOTE: Gestures update must be called every frame to reset gestures correctly
    // because ProcessGestureEvent() is just called on an event, not every frame
    UpdateGestures();
#endif

    // Reset key pressed registered
    CORE.Input.Keyboard.keyPressedQueueCount = 0;

#if !defined(PLATFORM_RPI)
    // Reset last gamepad button/axis registered state
    CORE.Input.Gamepad.lastButtonPressed = -1;
    CORE.Input.Gamepad.axisCount = 0;
#endif

#if defined(PLATFORM_RPI)
    // Register previous keys states
    for (int i = 0; i < 512; i++) CORE.Input.Keyboard.previousKeyState[i] = CORE.Input.Keyboard.currentKeyState[i];

    // Grab a keypress from the evdev fifo if avalable
    if (CORE.Input.Keyboard.lastKeyPressed.head != CORE.Input.Keyboard.lastKeyPressed.tail)
    {
        CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = CORE.Input.Keyboard.lastKeyPressed.contents[CORE.Input.Keyboard.lastKeyPressed.tail];    // Read the key from the buffer
        CORE.Input.Keyboard.keyPressedQueueCount++;

        CORE.Input.Keyboard.lastKeyPressed.tail = (CORE.Input.Keyboard.lastKeyPressed.tail + 1) & 0x07;           // Increment the tail pointer forwards and binary wraparound after 7 (fifo is 8 elements long)
    }

    // Register previous mouse states
    CORE.Input.Mouse.previousWheelMove = CORE.Input.Mouse.currentWheelMove;
    CORE.Input.Mouse.currentWheelMove = 0;
    for (int i = 0; i < 3; i++)
    {
        CORE.Input.Mouse.previousButtonState[i] = CORE.Input.Mouse.currentButtonState[i];
        CORE.Input.Mouse.currentButtonState[i] = CORE.Input.Mouse.currentButtonStateEvdev[i];
    }
#endif

#if defined(PLATFORM_UWP)
    // Register previous keys states
    for (int i = 0; i < 512; i++) CORE.Input.Keyboard.previousKeyState[i] = CORE.Input.Keyboard.currentKeyState[i];

    for (int i = 0; i < MAX_GAMEPADS; i++)
    {
        if (CORE.Input.Gamepad.ready[i])
        {
            for (int k = 0; k < MAX_GAMEPAD_BUTTONS; k++) CORE.Input.Gamepad.previousState[i][k] = CORE.Input.Gamepad.currentState[i][k];
        }
    }

    // Register previous mouse states
    CORE.Input.Mouse.previousWheelMove = CORE.Input.Mouse.currentWheelMove;
    CORE.Input.Mouse.currentWheelMove = 0;

    for (int i = 0; i < 3; i++) CORE.Input.Mouse.previousButtonState[i] = CORE.Input.Mouse.currentButtonState[i];

    // Loop over pending messages
    while (HasMessageFromUWP())
    {
        UWPMessage *msg = GetMessageFromUWP();

        switch (msg->type)
        {
            case UWP_MSG_REGISTER_KEY:
            {
                // Convert from virtualKey
                int actualKey = -1;

                switch (msg->paramInt0)
                {
                    case 0x08: actualKey = KEY_BACKSPACE; break;
                    case 0x20: actualKey = KEY_SPACE; break;
                    case 0x1B: actualKey = KEY_ESCAPE; break;
                    case 0x0D: actualKey = KEY_ENTER; break;
                    case 0x2E: actualKey = KEY_DELETE; break;
                    case 0x27: actualKey = KEY_RIGHT; break;
                    case 0x25: actualKey = KEY_LEFT; break;
                    case 0x28: actualKey = KEY_DOWN; break;
                    case 0x26: actualKey = KEY_UP; break;
                    case 0x70: actualKey = KEY_F1; break;
                    case 0x71: actualKey = KEY_F2; break;
                    case 0x72: actualKey = KEY_F3; break;
                    case 0x73: actualKey = KEY_F4; break;
                    case 0x74: actualKey = KEY_F5; break;
                    case 0x75: actualKey = KEY_F6; break;
                    case 0x76: actualKey = KEY_F7; break;
                    case 0x77: actualKey = KEY_F8; break;
                    case 0x78: actualKey = KEY_F9; break;
                    case 0x79: actualKey = KEY_F10; break;
                    case 0x7A: actualKey = KEY_F11; break;
                    case 0x7B: actualKey = KEY_F12; break;
                    case 0xA0: actualKey = KEY_LEFT_SHIFT; break;
                    case 0xA2: actualKey = KEY_LEFT_CONTROL; break;
                    case 0xA4: actualKey = KEY_LEFT_ALT; break;
                    case 0xA1: actualKey = KEY_RIGHT_SHIFT; break;
                    case 0xA3: actualKey = KEY_RIGHT_CONTROL; break;
                    case 0xA5: actualKey = KEY_RIGHT_ALT; break;
                    case 0x30: actualKey = KEY_ZERO; break;
                    case 0x31: actualKey = KEY_ONE; break;
                    case 0x32: actualKey = KEY_TWO; break;
                    case 0x33: actualKey = KEY_THREE; break;
                    case 0x34: actualKey = KEY_FOUR; break;
                    case 0x35: actualKey = KEY_FIVE; break;
                    case 0x36: actualKey = KEY_SIX; break;
                    case 0x37: actualKey = KEY_SEVEN; break;
                    case 0x38: actualKey = KEY_EIGHT; break;
                    case 0x39: actualKey = KEY_NINE; break;
                    case 0x41: actualKey = KEY_A; break;
                    case 0x42: actualKey = KEY_B; break;
                    case 0x43: actualKey = KEY_C; break;
                    case 0x44: actualKey = KEY_D; break;
                    case 0x45: actualKey = KEY_E; break;
                    case 0x46: actualKey = KEY_F; break;
                    case 0x47: actualKey = KEY_G; break;
                    case 0x48: actualKey = KEY_H; break;
                    case 0x49: actualKey = KEY_I; break;
                    case 0x4A: actualKey = KEY_J; break;
                    case 0x4B: actualKey = KEY_K; break;
                    case 0x4C: actualKey = KEY_L; break;
                    case 0x4D: actualKey = KEY_M; break;
                    case 0x4E: actualKey = KEY_N; break;
                    case 0x4F: actualKey = KEY_O; break;
                    case 0x50: actualKey = KEY_P; break;
                    case 0x51: actualKey = KEY_Q; break;
                    case 0x52: actualKey = KEY_R; break;
                    case 0x53: actualKey = KEY_S; break;
                    case 0x54: actualKey = KEY_T; break;
                    case 0x55: actualKey = KEY_U; break;
                    case 0x56: actualKey = KEY_V; break;
                    case 0x57: actualKey = KEY_W; break;
                    case 0x58: actualKey = KEY_X; break;
                    case 0x59: actualKey = KEY_Y; break;
                    case 0x5A: actualKey = KEY_Z; break;
                    default: break;
                }

                if (actualKey > -1) CORE.Input.Keyboard.currentKeyState[actualKey] = msg->paramChar0;

            } break;
            case UWP_MSG_REGISTER_CLICK: CORE.Input.Mouse.currentButtonState[msg->paramInt0] = msg->paramChar0; break;
            case UWP_MSG_SCROLL_WHEEL_UPDATE: CORE.Input.Mouse.currentWheelMove += msg->paramInt0; break;
            case UWP_MSG_UPDATE_MOUSE_LOCATION: CORE.Input.Mouse.position = msg->paramVector0; break;
            case UWP_MSG_SET_GAMEPAD_ACTIVE: if (msg->paramInt0 < MAX_GAMEPADS) CORE.Input.Gamepad.ready[msg->paramInt0] = msg->paramBool0; break;
            case UWP_MSG_SET_GAMEPAD_BUTTON:
            {
                if ((msg->paramInt0 < MAX_GAMEPADS) && (msg->paramInt1 < MAX_GAMEPAD_BUTTONS)) CORE.Input.Gamepad.currentState[msg->paramInt0][msg->paramInt1] = msg->paramChar0;
            } break;
            case UWP_MSG_SET_GAMEPAD_AXIS:
            {
                if ((msg->paramInt0 < MAX_GAMEPADS) && (msg->paramInt1 < MAX_GAMEPAD_AXIS)) CORE.Input.Gamepad.axisState[msg->paramInt0][msg->paramInt1] = msg->paramFloat0;

                // Register buttons for 2nd triggers
                CORE.Input.Gamepad.currentState[msg->paramInt0][GAMEPAD_BUTTON_LEFT_TRIGGER_2] = (char)(CORE.Input.Gamepad.axisState[msg->paramInt0][GAMEPAD_AXIS_LEFT_TRIGGER] > 0.1);
                CORE.Input.Gamepad.currentState[msg->paramInt0][GAMEPAD_BUTTON_RIGHT_TRIGGER_2] = (char)(CORE.Input.Gamepad.axisState[msg->paramInt0][GAMEPAD_AXIS_RIGHT_TRIGGER] > 0.1);
            } break;
            case UWP_MSG_SET_DISPLAY_DIMS:
            {
                CORE.Window.display.width = msg->paramVector0.x;
                CORE.Window.display.height = msg->paramVector0.y;
            } break;
            case UWP_MSG_HANDLE_RESIZE:
            {
                eglQuerySurface(CORE.Window.device, CORE.Window.surface, EGL_WIDTH, &CORE.Window.screen.width);
                eglQuerySurface(CORE.Window.device, CORE.Window.surface, EGL_HEIGHT, &CORE.Window.screen.height);

                // If window is resized, viewport and projection matrix needs to be re-calculated
                rlViewport(0, 0, CORE.Window.screen.width, CORE.Window.screen.height);            // Set viewport width and height
                rlMatrixMode(RL_PROJECTION);                // Switch to PROJECTION matrix
                rlLoadIdentity();                           // Reset current matrix (PROJECTION)
                rlOrtho(0, CORE.Window.screen.width, CORE.Window.screen.height, 0, 0.0f, 1.0f);   // Orthographic projection mode with top-left corner at (0,0)
                rlMatrixMode(RL_MODELVIEW);                 // Switch back to MODELVIEW matrix
                rlLoadIdentity();                           // Reset current matrix (MODELVIEW)
                rlClearScreenBuffers();                     // Clear screen buffers (color and depth)

                // Window size must be updated to be used on 3D mode to get new aspect ratio (BeginMode3D())
                // NOTE: Be careful! GLFW3 will choose the closest fullscreen resolution supported by current monitor,
                // for example, if reescaling back to 800x450 (desired), it could set 720x480 (closest fullscreen supported)
                CORE.Window.currentFbo.width = CORE.Window.screen.width;
                CORE.Window.currentFbo.height = CORE.Window.screen.height;

                // NOTE: Postprocessing texture is not scaled to new size

                CORE.Window.resized = true;

            } break;
            case UWP_MSG_SET_GAME_TIME: CORE.Time.current = msg->paramDouble0; break;
            default: break;
        }

        DeleteUWPMessage(msg); //Delete, we are done
    }
#endif  // PLATFORM_UWP

#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
    // Keyboard/Mouse input polling (automatically managed by GLFW3 through callback)

    // Register previous keys states
    for (int i = 0; i < 512; i++) CORE.Input.Keyboard.previousKeyState[i] = CORE.Input.Keyboard.currentKeyState[i];

    // Register previous mouse states
    for (int i = 0; i < 3; i++) CORE.Input.Mouse.previousButtonState[i] = CORE.Input.Mouse.currentButtonState[i];

    // Register previous mouse wheel state
    CORE.Input.Mouse.previousWheelMove = CORE.Input.Mouse.currentWheelMove;
    CORE.Input.Mouse.currentWheelMove = 0;
#endif

    // Register previous touch states
    for (int i = 0; i < MAX_TOUCH_POINTS; i++) CORE.Input.Touch.previousTouchState[i] = CORE.Input.Touch.currentTouchState[i];

#if defined(PLATFORM_DESKTOP)
    // Check if gamepads are ready
    // NOTE: We do it here in case of disconnection
    for (int i = 0; i < MAX_GAMEPADS; i++)
    {
        if (glfwJoystickPresent(i)) CORE.Input.Gamepad.ready[i] = true;
        else CORE.Input.Gamepad.ready[i] = false;
    }

    // Register gamepads buttons events
    for (int i = 0; i < MAX_GAMEPADS; i++)
    {
        if (CORE.Input.Gamepad.ready[i])     // Check if gamepad is available
        {
            // Register previous gamepad states
            for (int k = 0; k < MAX_GAMEPAD_BUTTONS; k++) CORE.Input.Gamepad.previousState[i][k] = CORE.Input.Gamepad.currentState[i][k];

            // Get current gamepad state
            // NOTE: There is no callback available, so we get it manually
            // Get remapped buttons
            GLFWgamepadstate state;
            glfwGetGamepadState(i, &state); // This remapps all gamepads so they have their buttons mapped like an xbox controller
            const unsigned char *buttons = state.buttons;

            for (int k = 0; (buttons != NULL) && (k < GLFW_GAMEPAD_BUTTON_DPAD_LEFT + 1) && (k < MAX_GAMEPAD_BUTTONS); k++)
            {
                const GamepadButton button = GetGamepadButton(k);

                if (buttons[k] == GLFW_PRESS)
                {
                    CORE.Input.Gamepad.currentState[i][button] = 1;
                    CORE.Input.Gamepad.lastButtonPressed = button;
                }
                else CORE.Input.Gamepad.currentState[i][button] = 0;
            }

            // Get current axis state
            const float *axes = state.axes;

            for (int k = 0; (axes != NULL) && (k < GLFW_GAMEPAD_AXIS_LAST + 1) && (k < MAX_GAMEPAD_AXIS); k++)
            {
                const int axis = GetGamepadAxis(k);
                CORE.Input.Gamepad.axisState[i][axis] = axes[k];
            }

            // Register buttons for 2nd triggers (because GLFW doesn't count these as buttons but rather axis)
            CORE.Input.Gamepad.currentState[i][GAMEPAD_BUTTON_LEFT_TRIGGER_2] = (char)(CORE.Input.Gamepad.axisState[i][GAMEPAD_AXIS_LEFT_TRIGGER] > 0.1);
            CORE.Input.Gamepad.currentState[i][GAMEPAD_BUTTON_RIGHT_TRIGGER_2] = (char)(CORE.Input.Gamepad.axisState[i][GAMEPAD_AXIS_RIGHT_TRIGGER] > 0.1);

            CORE.Input.Gamepad.axisCount = GLFW_GAMEPAD_AXIS_LAST;
        }
    }

    CORE.Window.resized = false;

#if defined(SUPPORT_EVENTS_WAITING)
    glfwWaitEvents();
#else
    glfwPollEvents();       // Register keyboard/mouse events (callbacks)... and window events!
#endif
#endif      //defined(PLATFORM_DESKTOP)

// Gamepad support using emscripten API
// NOTE: GLFW3 joystick functionality not available in web
#if defined(PLATFORM_WEB)
    // Get number of gamepads connected
    int numGamepads = 0;
    if (emscripten_sample_gamepad_data() == EMSCRIPTEN_RESULT_SUCCESS) numGamepads = emscripten_get_num_gamepads();

    for (int i = 0; (i < numGamepads) && (i < MAX_GAMEPADS); i++)
    {
        // Register previous gamepad button states
        for (int k = 0; k < MAX_GAMEPAD_BUTTONS; k++) CORE.Input.Gamepad.previousState[i][k] = CORE.Input.Gamepad.currentState[i][k];

        EmscriptenGamepadEvent gamepadState;

        int result = emscripten_get_gamepad_status(i, &gamepadState);

        if (result == EMSCRIPTEN_RESULT_SUCCESS)
        {
            // Register buttons data for every connected gamepad
            for (int j = 0; (j < gamepadState.numButtons) && (j < MAX_GAMEPAD_BUTTONS); j++)
            {
                const GamepadButton button = GetGamepadButton(j);
                if (gamepadState.digitalButton[j] == 1)
                {
                    CORE.Input.Gamepad.currentState[i][button] = 1;
                    CORE.Input.Gamepad.lastButtonPressed = button;
                }
                else CORE.Input.Gamepad.currentState[i][button] = 0;

                //TRACELOGD("INPUT: Gamepad %d, button %d: Digital: %d, Analog: %g", gamepadState.index, j, gamepadState.digitalButton[j], gamepadState.analogButton[j]);
            }

            // Register axis data for every connected gamepad
            for (int j = 0; (j < gamepadState.numAxes) && (j < MAX_GAMEPAD_AXIS); j++)
            {
                const int axis = GetGamepadAxis(j);
                CORE.Input.Gamepad.axisState[i][axis] = gamepadState.axis[j];
            }

            CORE.Input.Gamepad.axisCount = gamepadState.numAxes;
        }
    }
#endif

#if defined(PLATFORM_ANDROID)
    // Register previous keys states
    // NOTE: Android supports up to 260 keys
    for (int i = 0; i < 260; i++) CORE.Input.Keyboard.previousKeyState[i] = CORE.Input.Keyboard.currentKeyState[i];

    // Android ALooper_pollAll() variables
    int pollResult = 0;
    int pollEvents = 0;

    // Poll Events (registered events)
    // NOTE: Activity is paused if not enabled (CORE.Android.appEnabled)
    while ((pollResult = ALooper_pollAll(CORE.Android.appEnabled? 0 : -1, NULL, &pollEvents, (void**)&CORE.Android.source)) >= 0)
    {
        // Process this event
        if (CORE.Android.source != NULL) CORE.Android.source->process(CORE.Android.app, CORE.Android.source);

        // NOTE: Never close window, native activity is controlled by the system!
        if (CORE.Android.app->destroyRequested != 0)
        {
            //CORE.Window.shouldClose = true;
            //ANativeActivity_finish(CORE.Android.app->activity);
        }
    }
#endif

#if defined(PLATFORM_RPI) && defined(SUPPORT_SSH_KEYBOARD_RPI)
    // NOTE: Keyboard reading could be done using input_event(s) reading or just read from stdin,
    // we now use both methods inside here. 2nd method is still used for legacy purposes (Allows for input trough SSH console)
    ProcessKeyboard();

    // NOTE: Mouse input events polling is done asynchronously in another pthread - EventThread()
    // NOTE: Gamepad (Joystick) input events polling is done asynchonously in another pthread - GamepadThread()
#endif
}

// Copy back buffer to front buffers
static void SwapBuffers(void)
{
#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
    glfwSwapBuffers(CORE.Window.handle);
#endif

#if defined(PLATFORM_ANDROID) || defined(PLATFORM_RPI) || defined(PLATFORM_UWP)
    eglSwapBuffers(CORE.Window.device, CORE.Window.surface);
#endif
}

#if defined(PLATFORM_DESKTOP) || defined(PLATFORM_WEB)
// GLFW3 Error Callback, runs on GLFW3 error
static void ErrorCallback(int error, const char *description)
{
    TRACELOG(LOG_WARNING, "GLFW: Error: %i Description: %s", error, description);
}

// GLFW3 Srolling Callback, runs on mouse wheel
static void ScrollCallback(GLFWwindow *window, double xoffset, double yoffset)
{
    CORE.Input.Mouse.currentWheelMove = (int)yoffset;
}

// GLFW3 Keyboard Callback, runs on key pressed
static void KeyCallback(GLFWwindow *window, int key, int scancode, int action, int mods)
{
    if (key == CORE.Input.Keyboard.exitKey && action == GLFW_PRESS)
    {
        glfwSetWindowShouldClose(CORE.Window.handle, GLFW_TRUE);

        // NOTE: Before closing window, while loop must be left!
    }
    else if (key == GLFW_KEY_F12 && action == GLFW_PRESS)
    {
#if defined(SUPPORT_GIF_RECORDING)
        if (mods == GLFW_MOD_CONTROL)
        {
            if (gifRecording)
            {
                GifEnd();
                gifRecording = false;

            #if defined(PLATFORM_WEB)
                // Download file from MEMFS (emscripten memory filesystem)
                // saveFileFromMEMFSToDisk() function is defined in raylib/templates/web_shel/shell.html
                emscripten_run_script(TextFormat("saveFileFromMEMFSToDisk('%s','%s')", TextFormat("screenrec%03i.gif", screenshotCounter - 1), TextFormat("screenrec%03i.gif", screenshotCounter - 1)));
            #endif

                TRACELOG(LOG_INFO, "SYSTEM: Finish animated GIF recording");
            }
            else
            {
                gifRecording = true;
                gifFramesCounter = 0;

                char path[512] = { 0 };
            #if defined(PLATFORM_ANDROID)
                strcpy(path, CORE.Android.internalDataPath);
                strcat(path, TextFormat("./screenrec%03i.gif", screenshotCounter));
            #else
                strcpy(path, TextFormat("./screenrec%03i.gif", screenshotCounter));
            #endif

                // NOTE: delay represents the time between frames in the gif, if we capture a gif frame every
                // 10 game frames and each frame trakes 16.6ms (60fps), delay between gif frames should be ~16.6*10.
                GifBegin(path, CORE.Window.screen.width, CORE.Window.screen.height, (int)(GetFrameTime()*10.0f), 8, false);
                screenshotCounter++;

                TRACELOG(LOG_INFO, "SYSTEM: Start animated GIF recording: %s", TextFormat("screenrec%03i.gif", screenshotCounter));
            }
        }
        else
#endif  // SUPPORT_GIF_RECORDING
#if defined(SUPPORT_SCREEN_CAPTURE)
        {
            TakeScreenshot(TextFormat("screenshot%03i.png", screenshotCounter));
            screenshotCounter++;
        }
#endif  // SUPPORT_SCREEN_CAPTURE
    }
    else
    {
        // WARNING: GLFW could return GLFW_REPEAT, we need to consider it as 1
        // to work properly with our implementation (IsKeyDown/IsKeyUp checks)
        if (action == GLFW_RELEASE) CORE.Input.Keyboard.currentKeyState[key] = 0;
        else CORE.Input.Keyboard.currentKeyState[key] = 1;
    }
}

// GLFW3 Mouse Button Callback, runs on mouse button pressed
static void MouseButtonCallback(GLFWwindow *window, int button, int action, int mods)
{
    // WARNING: GLFW could only return GLFW_PRESS (1) or GLFW_RELEASE (0) for now,
    // but future releases may add more actions (i.e. GLFW_REPEAT)
    CORE.Input.Mouse.currentButtonState[button] = action;

#if defined(SUPPORT_GESTURES_SYSTEM) && defined(SUPPORT_MOUSE_GESTURES)
    // Process mouse events as touches to be able to use mouse-gestures
    GestureEvent gestureEvent = { 0 };

    // Register touch actions
    if ((CORE.Input.Mouse.currentButtonState[button] == 1) && (CORE.Input.Mouse.previousButtonState[button] == 0)) gestureEvent.touchAction = TOUCH_DOWN;
    else if ((CORE.Input.Mouse.currentButtonState[button] == 0) && (CORE.Input.Mouse.previousButtonState[button] == 1)) gestureEvent.touchAction = TOUCH_UP;

    // NOTE: TOUCH_MOVE event is registered in MouseCursorPosCallback()

    // Assign a pointer ID
    gestureEvent.pointerId[0] = 0;

    // Register touch points count
    gestureEvent.pointCount = 1;

    // Register touch points position, only one point registered
    gestureEvent.position[0] = GetMousePosition();

    // Normalize gestureEvent.position[0] for CORE.Window.screen.width and CORE.Window.screen.height
    gestureEvent.position[0].x /= (float)GetScreenWidth();
    gestureEvent.position[0].y /= (float)GetScreenHeight();

    // Gesture data is sent to gestures system for processing
    ProcessGestureEvent(gestureEvent);
#endif
}

// GLFW3 Cursor Position Callback, runs on mouse move
static void MouseCursorPosCallback(GLFWwindow *window, double x, double y)
{
    CORE.Input.Mouse.position.x = (float)x;
    CORE.Input.Mouse.position.y = (float)y;
    CORE.Input.Touch.position[0] = CORE.Input.Mouse.position;

#if defined(SUPPORT_GESTURES_SYSTEM) && defined(SUPPORT_MOUSE_GESTURES)
    // Process mouse events as touches to be able to use mouse-gestures
    GestureEvent gestureEvent = { 0 };

    gestureEvent.touchAction = TOUCH_MOVE;

    // Assign a pointer ID
    gestureEvent.pointerId[0] = 0;

    // Register touch points count
    gestureEvent.pointCount = 1;

    // Register touch points position, only one point registered
    gestureEvent.position[0] = CORE.Input.Touch.position[0];

    // Normalize gestureEvent.position[0] for CORE.Window.screen.width and CORE.Window.screen.height
    gestureEvent.position[0].x /= (float)GetScreenWidth();
    gestureEvent.position[0].y /= (float)GetScreenHeight();

    // Gesture data is sent to gestures system for processing
    ProcessGestureEvent(gestureEvent);
#endif
}

// GLFW3 Char Key Callback, runs on key down (get unicode char value)
static void CharCallback(GLFWwindow *window, unsigned int key)
{
    // NOTE: Registers any key down considering OS keyboard layout but
    // do not detects action events, those should be managed by user...
    // Ref: https://github.com/glfw/glfw/issues/668#issuecomment-166794907
    // Ref: https://www.glfw.org/docs/latest/input_guide.html#input_char

    // Check if there is space available in the queue
    if (CORE.Input.Keyboard.keyPressedQueueCount < MAX_CHARS_QUEUE)
    {
        // Add character to the queue
        CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = key;
        CORE.Input.Keyboard.keyPressedQueueCount++;
    }
}

// GLFW3 CursorEnter Callback, when cursor enters the window
static void CursorEnterCallback(GLFWwindow *window, int enter)
{
    if (enter == true) CORE.Input.Mouse.cursorOnScreen = true;
    else CORE.Input.Mouse.cursorOnScreen = false;
}

// GLFW3 WindowSize Callback, runs when window is resized
// NOTE: Window resizing not allowed by default
static void WindowSizeCallback(GLFWwindow *window, int width, int height)
{
    SetupViewport(width, height);    // Reset viewport and projection matrix for new size

    // Set current screen size
    CORE.Window.screen.width = width;
    CORE.Window.screen.height = height;
    CORE.Window.currentFbo.width = width;
    CORE.Window.currentFbo.height = height;

    // NOTE: Postprocessing texture is not scaled to new size

    CORE.Window.resized = true;
}

// GLFW3 WindowIconify Callback, runs when window is minimized/restored
static void WindowIconifyCallback(GLFWwindow *window, int iconified)
{
    if (iconified) CORE.Window.minimized = true;  // The window was iconified
    else CORE.Window.minimized = false;           // The window was restored
}

// GLFW3 Window Drop Callback, runs when drop files into window
// NOTE: Paths are stored in dynamic memory for further retrieval
// Everytime new files are dropped, old ones are discarded
static void WindowDropCallback(GLFWwindow *window, int count, const char **paths)
{
    ClearDroppedFiles();

    CORE.Window.dropFilesPath = (char **)RL_MALLOC(sizeof(char *)*count);

    for (int i = 0; i < count; i++)
    {
        CORE.Window.dropFilesPath[i] = (char *)RL_MALLOC(sizeof(char)*MAX_FILEPATH_LENGTH);
        strcpy(CORE.Window.dropFilesPath[i], paths[i]);
    }

    CORE.Window.dropFilesCount = count;
}
#endif

#if defined(PLATFORM_ANDROID)
// ANDROID: Process activity lifecycle commands
static void AndroidCommandCallback(struct android_app *app, int32_t cmd)
{
    switch (cmd)
    {
        case APP_CMD_START:
        {
            //rendering = true;
        } break;
        case APP_CMD_RESUME: break;
        case APP_CMD_INIT_WINDOW:
        {
            if (app->window != NULL)
            {
                if (CORE.Android.contextRebindRequired)
                {
                    // Reset screen scaling to full display size
                    EGLint displayFormat;
                    eglGetConfigAttrib(CORE.Window.device, CORE.Window.config, EGL_NATIVE_VISUAL_ID, &displayFormat);
                    ANativeWindow_setBuffersGeometry(app->window, CORE.Window.render.width, CORE.Window.render.height, displayFormat);

                    // Recreate display surface and re-attach OpenGL context
                    CORE.Window.surface = eglCreateWindowSurface(CORE.Window.device, CORE.Window.config, app->window, NULL);
                    eglMakeCurrent(CORE.Window.device, CORE.Window.surface, CORE.Window.surface, CORE.Window.context);

                    CORE.Android.contextRebindRequired = false;
                }
                else
                {
                    CORE.Window.display.width  = ANativeWindow_getWidth(CORE.Android.app->window);
                    CORE.Window.display.height = ANativeWindow_getHeight(CORE.Android.app->window);

                    // Init graphics device (display device and OpenGL context)
                    InitGraphicsDevice(CORE.Window.screen.width, CORE.Window.screen.height);

                    // Init hi-res timer
                    InitTimer();

                #if defined(SUPPORT_DEFAULT_FONT)
                    // Load default font
                    // NOTE: External function (defined in module: text)
                    LoadFontDefault();
                    Rectangle rec = GetFontDefault().recs[95];
                    // NOTE: We setup a 1px padding on char rectangle to avoid pixel bleeding on MSAA filtering
                    SetShapesTexture(GetFontDefault().texture, (Rectangle){ rec.x + 1, rec.y + 1, rec.width - 2, rec.height - 2 });
                #endif

                    // TODO: GPU assets reload in case of lost focus (lost context)
                    // NOTE: This problem has been solved just unbinding and rebinding context from display
                    /*
                    if (assetsReloadRequired)
                    {
                        for (int i = 0; i < assetsCount; i++)
                        {
                            // TODO: Unload old asset if required

                            // Load texture again to pointed texture
                            (*textureAsset + i) = LoadTexture(assetPath[i]);
                        }
                    }
                    */
                }
            }
        } break;
        case APP_CMD_GAINED_FOCUS:
        {
            CORE.Android.appEnabled = true;
            //ResumeMusicStream();
        } break;
        case APP_CMD_PAUSE: break;
        case APP_CMD_LOST_FOCUS:
        {
            CORE.Android.appEnabled = false;
            //PauseMusicStream();
        } break;
        case APP_CMD_TERM_WINDOW:
        {
            // Dettach OpenGL context and destroy display surface
            // NOTE 1: Detaching context before destroying display surface avoids losing our resources (textures, shaders, VBOs...)
            // NOTE 2: In some cases (too many context loaded), OS could unload context automatically... :(
            eglMakeCurrent(CORE.Window.device, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT);
            eglDestroySurface(CORE.Window.device, CORE.Window.surface);

            CORE.Android.contextRebindRequired = true;
        } break;
        case APP_CMD_SAVE_STATE: break;
        case APP_CMD_STOP: break;
        case APP_CMD_DESTROY:
        {
            // TODO: Finish activity?
            //ANativeActivity_finish(CORE.Android.app->activity);
        } break;
        case APP_CMD_CONFIG_CHANGED:
        {
            //AConfiguration_fromAssetManager(CORE.Android.app->config, CORE.Android.app->activity->assetManager);
            //print_cur_config(CORE.Android.app);

            // Check screen orientation here!
        } break;
        default: break;
    }
}

// ANDROID: Get input events
static int32_t AndroidInputCallback(struct android_app *app, AInputEvent *event)
{
    // If additional inputs are required check:
    // https://developer.android.com/ndk/reference/group/input
    // https://developer.android.com/training/game-controllers/controller-input

    int type = AInputEvent_getType(event);
    int source = AInputEvent_getSource(event);

    if (type == AINPUT_EVENT_TYPE_MOTION)
    {
        if ((source & AINPUT_SOURCE_JOYSTICK) == AINPUT_SOURCE_JOYSTICK || (source & AINPUT_SOURCE_GAMEPAD) == AINPUT_SOURCE_GAMEPAD)
        {
            // Get first touch position
            CORE.Input.Touch.position[0].x = AMotionEvent_getX(event, 0);
            CORE.Input.Touch.position[0].y = AMotionEvent_getY(event, 0);

            // Get second touch position
            CORE.Input.Touch.position[1].x = AMotionEvent_getX(event, 1);
            CORE.Input.Touch.position[1].y = AMotionEvent_getY(event, 1);

            int32_t keycode = AKeyEvent_getKeyCode(event);
            if (AKeyEvent_getAction(event) == AKEY_EVENT_ACTION_DOWN)
            {
                CORE.Input.Keyboard.currentKeyState[keycode] = 1;   // Key down

                CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = keycode;
                CORE.Input.Keyboard.keyPressedQueueCount++;
            }
            else CORE.Input.Keyboard.currentKeyState[keycode] = 0;  // Key up

            // Stop processing gamepad buttons
            return 1;
        }
    }
    else if (type == AINPUT_EVENT_TYPE_KEY)
    {
        int32_t keycode = AKeyEvent_getKeyCode(event);
        //int32_t AKeyEvent_getMetaState(event);

        // Save current button and its state
        // NOTE: Android key action is 0 for down and 1 for up
        if (AKeyEvent_getAction(event) == AKEY_EVENT_ACTION_DOWN)
        {
            CORE.Input.Keyboard.currentKeyState[keycode] = 1;   // Key down

            CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = keycode;
            CORE.Input.Keyboard.keyPressedQueueCount++;
        }
        else CORE.Input.Keyboard.currentKeyState[keycode] = 0;  // Key up

        if (keycode == AKEYCODE_POWER)
        {
            // Let the OS handle input to avoid app stuck. Behaviour: CMD_PAUSE -> CMD_SAVE_STATE -> CMD_STOP -> CMD_CONFIG_CHANGED -> CMD_LOST_FOCUS
            // Resuming Behaviour: CMD_START -> CMD_RESUME -> CMD_CONFIG_CHANGED -> CMD_CONFIG_CHANGED -> CMD_GAINED_FOCUS
            // It seems like locking mobile, screen size (CMD_CONFIG_CHANGED) is affected.
            // NOTE: AndroidManifest.xml must have <activity android:configChanges="orientation|keyboardHidden|screenSize" >
            // Before that change, activity was calling CMD_TERM_WINDOW and CMD_DESTROY when locking mobile, so that was not a normal behaviour
            return 0;
        }
        else if ((keycode == AKEYCODE_BACK) || (keycode == AKEYCODE_MENU))
        {
            // Eat BACK_BUTTON and AKEYCODE_MENU, just do nothing... and don't let to be handled by OS!
            return 1;
        }
        else if ((keycode == AKEYCODE_VOLUME_UP) || (keycode == AKEYCODE_VOLUME_DOWN))
        {
            // Set default OS behaviour
            return 0;
        }

        return 0;
    }

    CORE.Input.Touch.position[0].x = AMotionEvent_getX(event, 0);
    CORE.Input.Touch.position[0].y = AMotionEvent_getY(event, 0);

    int32_t action = AMotionEvent_getAction(event);
    unsigned int flags = action & AMOTION_EVENT_ACTION_MASK;

    if (flags == AMOTION_EVENT_ACTION_DOWN || flags == AMOTION_EVENT_ACTION_MOVE)
    {
        CORE.Input.Touch.currentTouchState[MOUSE_LEFT_BUTTON] = 1;
    }
    else if (flags == AMOTION_EVENT_ACTION_UP)
    {
        CORE.Input.Touch.currentTouchState[MOUSE_LEFT_BUTTON] = 0;
    }

#if defined(SUPPORT_GESTURES_SYSTEM)

    GestureEvent gestureEvent;

    // Register touch actions
    if (flags == AMOTION_EVENT_ACTION_DOWN) gestureEvent.touchAction = TOUCH_DOWN;
    else if (flags == AMOTION_EVENT_ACTION_UP) gestureEvent.touchAction = TOUCH_UP;
    else if (flags == AMOTION_EVENT_ACTION_MOVE) gestureEvent.touchAction = TOUCH_MOVE;

    // Register touch points count
    // NOTE: Documentation says pointerCount is Always >= 1,
    // but in practice it can be 0 or over a million
    gestureEvent.pointCount = AMotionEvent_getPointerCount(event);

    // Only enable gestures for 1-3 touch points
    if ((gestureEvent.pointCount > 0) && (gestureEvent.pointCount < 4))
    {
        // Register touch points id
        // NOTE: Only two points registered
        gestureEvent.pointerId[0] = AMotionEvent_getPointerId(event, 0);
        gestureEvent.pointerId[1] = AMotionEvent_getPointerId(event, 1);

        // Register touch points position
        gestureEvent.position[0] = (Vector2){ AMotionEvent_getX(event, 0), AMotionEvent_getY(event, 0) };
        gestureEvent.position[1] = (Vector2){ AMotionEvent_getX(event, 1), AMotionEvent_getY(event, 1) };

        // Normalize gestureEvent.position[x] for screenWidth and screenHeight
        gestureEvent.position[0].x /= (float)GetScreenWidth();
        gestureEvent.position[0].y /= (float)GetScreenHeight();

        gestureEvent.position[1].x /= (float)GetScreenWidth();
        gestureEvent.position[1].y /= (float)GetScreenHeight();

        // Gesture data is sent to gestures system for processing
        ProcessGestureEvent(gestureEvent);
    }
#endif

    return 0;
}
#endif

#if defined(PLATFORM_WEB)
// Register fullscreen change events
static EM_BOOL EmscriptenFullscreenChangeCallback(int eventType, const EmscriptenFullscreenChangeEvent *event, void *userData)
{
    //isFullscreen: int event->isFullscreen
    //fullscreenEnabled: int event->fullscreenEnabled
    //fs element nodeName: (char *) event->nodeName
    //fs element id: (char *) event->id
    //Current element size: (int) event->elementWidth, (int) event->elementHeight
    //Screen size:(int) event->screenWidth, (int) event->screenHeight

    if (event->isFullscreen)
    {
        CORE.Window.fullscreen = true;
        TRACELOG(LOG_INFO, "WEB: Canvas scaled to fullscreen. ElementSize: (%ix%i), ScreenSize(%ix%i)", event->elementWidth, event->elementHeight, event->screenWidth, event->screenHeight);
    }
    else
    {
        CORE.Window.fullscreen = false;
        TRACELOG(LOG_INFO, "WEB: Canvas scaled to windowed. ElementSize: (%ix%i), ScreenSize(%ix%i)", event->elementWidth, event->elementHeight, event->screenWidth, event->screenHeight);
    }

    // TODO: Depending on scaling factor (screen vs element), calculate factor to scale mouse/touch input

    return 0;
}

// Register keyboard input events
static EM_BOOL EmscriptenKeyboardCallback(int eventType, const EmscriptenKeyboardEvent *keyEvent, void *userData)
{
    if ((eventType == EMSCRIPTEN_EVENT_KEYPRESS) && (strcmp(keyEvent->code, "Escape") == 0))
    {
        emscripten_exit_pointerlock();
    }

    return 0;
}

// Register mouse input events
static EM_BOOL EmscriptenMouseCallback(int eventType, const EmscriptenMouseEvent *mouseEvent, void *userData)
{
    // Lock mouse pointer when click on screen
    if ((eventType == EMSCRIPTEN_EVENT_CLICK) && CORE.Input.Mouse.cursorLockRequired)
    {
        EmscriptenPointerlockChangeEvent plce;
        emscripten_get_pointerlock_status(&plce);

        if (!plce.isActive) emscripten_request_pointerlock(0, 1);
        else
        {
            emscripten_exit_pointerlock();
            emscripten_get_pointerlock_status(&plce);
            //if (plce.isActive) TRACELOG(LOG_WARNING, "Pointer lock exit did not work!");
        }

        CORE.Input.Mouse.cursorLockRequired = false;
    }

    return 0;
}

// Register touch input events
static EM_BOOL EmscriptenTouchCallback(int eventType, const EmscriptenTouchEvent *touchEvent, void *userData)
{
    for (int i = 0; i < touchEvent->numTouches; i++)
    {
        if (eventType == EMSCRIPTEN_EVENT_TOUCHSTART) CORE.Input.Touch.currentTouchState[i] = 1;
        else if (eventType == EMSCRIPTEN_EVENT_TOUCHEND) CORE.Input.Touch.currentTouchState[i] = 0;
    }

#if defined(SUPPORT_GESTURES_SYSTEM)
    GestureEvent gestureEvent = { 0 };

    // Register touch actions
    if (eventType == EMSCRIPTEN_EVENT_TOUCHSTART) gestureEvent.touchAction = TOUCH_DOWN;
    else if (eventType == EMSCRIPTEN_EVENT_TOUCHEND) gestureEvent.touchAction = TOUCH_UP;
    else if (eventType == EMSCRIPTEN_EVENT_TOUCHMOVE) gestureEvent.touchAction = TOUCH_MOVE;

    // Register touch points count
    gestureEvent.pointCount = touchEvent->numTouches;

    // Register touch points id
    gestureEvent.pointerId[0] = touchEvent->touches[0].identifier;
    gestureEvent.pointerId[1] = touchEvent->touches[1].identifier;

    // Register touch points position
    // NOTE: Only two points registered
    gestureEvent.position[0] = (Vector2){ touchEvent->touches[0].targetX, touchEvent->touches[0].targetY };
    gestureEvent.position[1] = (Vector2){ touchEvent->touches[1].targetX, touchEvent->touches[1].targetY };

    double canvasWidth, canvasHeight;
    // NOTE: emscripten_get_canvas_element_size() returns canvas.width and canvas.height but
    // we are looking for actual CSS size: canvas.style.width and canvas.style.height
    //EMSCRIPTEN_RESULT res = emscripten_get_canvas_element_size("#canvas", &canvasWidth, &canvasHeight);
    emscripten_get_element_css_size("#canvas", &canvasWidth, &canvasHeight);

    // Normalize gestureEvent.position[x] for CORE.Window.screen.width and CORE.Window.screen.height
    gestureEvent.position[0].x *= ((float)GetScreenWidth()/(float)canvasWidth);
    gestureEvent.position[0].y *= ((float)GetScreenHeight()/(float)canvasHeight);
    gestureEvent.position[1].x *= ((float)GetScreenWidth()/(float)canvasWidth);
    gestureEvent.position[1].y *= ((float)GetScreenHeight()/(float)canvasHeight);

    CORE.Input.Touch.position[0] = gestureEvent.position[0];
    CORE.Input.Touch.position[1] = gestureEvent.position[1];

    // Gesture data is sent to gestures system for processing
    ProcessGestureEvent(gestureEvent);
#else
    // Support only simple touch position
    if (eventType == EMSCRIPTEN_EVENT_TOUCHSTART)
    {
        // Get first touch position
        CORE.Input.Touch.position[0] = (Vector2){ touchEvent->touches[0].targetX, touchEvent->touches[0].targetY };

        double canvasWidth, canvasHeight;
        //EMSCRIPTEN_RESULT res = emscripten_get_canvas_element_size("#canvas", &canvasWidth, &canvasHeight);
        emscripten_get_element_css_size("#canvas", &canvasWidth, &canvasHeight);

        // Normalize gestureEvent.position[x] for screenWidth and screenHeight
        CORE.Input.Touch.position[0].x *= ((float)GetScreenWidth()/(float)canvasWidth);
        CORE.Input.Touch.position[0].y *= ((float)GetScreenHeight()/(float)canvasHeight);
    }
#endif

    return 1;
}

// Register connected/disconnected gamepads events
static EM_BOOL EmscriptenGamepadCallback(int eventType, const EmscriptenGamepadEvent *gamepadEvent, void *userData)
{
    /*
    TRACELOGD("%s: timeStamp: %g, connected: %d, index: %ld, numAxes: %d, numButtons: %d, id: \"%s\", mapping: \"%s\"",
           eventType != 0? emscripten_event_type_to_string(eventType) : "Gamepad state",
           gamepadEvent->timestamp, gamepadEvent->connected, gamepadEvent->index, gamepadEvent->numAxes, gamepadEvent->numButtons, gamepadEvent->id, gamepadEvent->mapping);

    for (int i = 0; i < gamepadEvent->numAxes; ++i) TRACELOGD("Axis %d: %g", i, gamepadEvent->axis[i]);
    for (int i = 0; i < gamepadEvent->numButtons; ++i) TRACELOGD("Button %d: Digital: %d, Analog: %g", i, gamepadEvent->digitalButton[i], gamepadEvent->analogButton[i]);
    */

    if ((gamepadEvent->connected) && (gamepadEvent->index < MAX_GAMEPADS)) CORE.Input.Gamepad.ready[gamepadEvent->index] = true;
    else CORE.Input.Gamepad.ready[gamepadEvent->index] = false;

    // TODO: Test gamepadEvent->index

    return 0;
}
#endif

#if defined(PLATFORM_RPI)

#if defined(SUPPORT_SSH_KEYBOARD_RPI)
// Initialize Keyboard system (using standard input)
static void InitKeyboard(void)
{
    // NOTE: We read directly from Standard Input (stdin) - STDIN_FILENO file descriptor

    // Make stdin non-blocking (not enough, need to configure to non-canonical mode)
    int flags = fcntl(STDIN_FILENO, F_GETFL, 0);          // F_GETFL: Get the file access mode and the file status flags
    fcntl(STDIN_FILENO, F_SETFL, flags | O_NONBLOCK);     // F_SETFL: Set the file status flags to the value specified

    // Save terminal keyboard settings and reconfigure terminal with new settings
    struct termios keyboardNewSettings;
    tcgetattr(STDIN_FILENO, &CORE.Input.Keyboard.defaultSettings);    // Get current keyboard settings
    keyboardNewSettings = CORE.Input.Keyboard.defaultSettings;

    // New terminal settings for keyboard: turn off buffering (non-canonical mode), echo and key processing
    // NOTE: ISIG controls if ^C and ^Z generate break signals or not
    keyboardNewSettings.c_lflag &= ~(ICANON | ECHO | ISIG);
    //keyboardNewSettings.c_iflag &= ~(ISTRIP | INLCR | ICRNL | IGNCR | IXON | IXOFF);
    keyboardNewSettings.c_cc[VMIN] = 1;
    keyboardNewSettings.c_cc[VTIME] = 0;

    // Set new keyboard settings (change occurs immediately)
    tcsetattr(STDIN_FILENO, TCSANOW, &keyboardNewSettings);

    // NOTE: Reading directly from stdin will give chars already key-mapped by kernel to ASCII or UNICODE

    // Save old keyboard mode to restore it at the end
    if (ioctl(STDIN_FILENO, KDGKBMODE, &CORE.Input.Keyboard.defaultMode) < 0)
    {
        // NOTE: It could mean we are using a remote keyboard through ssh!
        TRACELOG(LOG_WARNING, "RPI: Failed to change keyboard mode (SSH keyboard?)");
    }
    else
    {
        // We reconfigure keyboard mode to get:
        //    - scancodes (K_RAW)
        //    - keycodes (K_MEDIUMRAW)
        //    - ASCII chars (K_XLATE)
        //    - UNICODE chars (K_UNICODE)
        ioctl(STDIN_FILENO, KDSKBMODE, K_XLATE);
    }

    // Register keyboard restore when program finishes
    atexit(RestoreKeyboard);
}

// Process keyboard inputs
// TODO: Most probably input reading and processing should be in a separate thread
static void ProcessKeyboard(void)
{
    #define MAX_KEYBUFFER_SIZE      32      // Max size in bytes to read

    // Keyboard input polling (fill keys[256] array with status)
    int bufferByteCount = 0;                // Bytes available on the buffer
    char keysBuffer[MAX_KEYBUFFER_SIZE];    // Max keys to be read at a time

    // Read availables keycodes from stdin
    bufferByteCount = read(STDIN_FILENO, keysBuffer, MAX_KEYBUFFER_SIZE);     // POSIX system call

    // Reset pressed keys array (it will be filled below)
    for (int i = 0; i < 512; i++) CORE.Input.Keyboard.currentKeyState[i] = 0;

    // Check keys from event input workers (This is the new keyboard reading method)
    //for (int i = 0; i < 512; i++) CORE.Input.Keyboard.currentKeyState[i] = CORE.Input.Keyboard.currentKeyStateEvdev[i];

    // Fill all read bytes (looking for keys)
    for (int i = 0; i < bufferByteCount; i++)
    {
        // NOTE: If (key == 0x1b), depending on next key, it could be a special keymap code!
        // Up -> 1b 5b 41 / Left -> 1b 5b 44 / Right -> 1b 5b 43 / Down -> 1b 5b 42
        if (keysBuffer[i] == 0x1b)
        {
            // Detect ESC to stop program
            if (bufferByteCount == 1) CORE.Input.Keyboard.currentKeyState[CORE.Input.Keyboard.exitKey] = 1;
            else
            {
                if (keysBuffer[i + 1] == 0x5b)    // Special function key
                {
                    if ((keysBuffer[i + 2] == 0x5b) || (keysBuffer[i + 2] == 0x31) || (keysBuffer[i + 2] == 0x32))
                    {
                        // Process special function keys (F1 - F12)
                        switch (keysBuffer[i + 3])
                        {
                            case 0x41: CORE.Input.Keyboard.currentKeyState[290] = 1; break;    // raylib KEY_F1
                            case 0x42: CORE.Input.Keyboard.currentKeyState[291] = 1; break;    // raylib KEY_F2
                            case 0x43: CORE.Input.Keyboard.currentKeyState[292] = 1; break;    // raylib KEY_F3
                            case 0x44: CORE.Input.Keyboard.currentKeyState[293] = 1; break;    // raylib KEY_F4
                            case 0x45: CORE.Input.Keyboard.currentKeyState[294] = 1; break;    // raylib KEY_F5
                            case 0x37: CORE.Input.Keyboard.currentKeyState[295] = 1; break;    // raylib KEY_F6
                            case 0x38: CORE.Input.Keyboard.currentKeyState[296] = 1; break;    // raylib KEY_F7
                            case 0x39: CORE.Input.Keyboard.currentKeyState[297] = 1; break;    // raylib KEY_F8
                            case 0x30: CORE.Input.Keyboard.currentKeyState[298] = 1; break;    // raylib KEY_F9
                            case 0x31: CORE.Input.Keyboard.currentKeyState[299] = 1; break;    // raylib KEY_F10
                            case 0x33: CORE.Input.Keyboard.currentKeyState[300] = 1; break;    // raylib KEY_F11
                            case 0x34: CORE.Input.Keyboard.currentKeyState[301] = 1; break;    // raylib KEY_F12
                            default: break;
                        }

                        if (keysBuffer[i + 2] == 0x5b) i += 4;
                        else if ((keysBuffer[i + 2] == 0x31) || (keysBuffer[i + 2] == 0x32)) i += 5;
                    }
                    else
                    {
                        switch (keysBuffer[i + 2])
                        {
                            case 0x41: CORE.Input.Keyboard.currentKeyState[265] = 1; break;    // raylib KEY_UP
                            case 0x42: CORE.Input.Keyboard.currentKeyState[264] = 1; break;    // raylib KEY_DOWN
                            case 0x43: CORE.Input.Keyboard.currentKeyState[262] = 1; break;    // raylib KEY_RIGHT
                            case 0x44: CORE.Input.Keyboard.currentKeyState[263] = 1; break;    // raylib KEY_LEFT
                            default: break;
                        }

                        i += 3;  // Jump to next key
                    }

                    // NOTE: Some keys are not directly keymapped (CTRL, ALT, SHIFT)
                }
            }
        }
        else if (keysBuffer[i] == 0x0a)     // raylib KEY_ENTER (don't mix with <linux/input.h> KEY_*)
        {
            CORE.Input.Keyboard.currentKeyState[257] = 1;

            CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = 257;     // Add keys pressed into queue
            CORE.Input.Keyboard.keyPressedQueueCount++;
        }
        else if (keysBuffer[i] == 0x7f)     // raylib KEY_BACKSPACE
        {
            CORE.Input.Keyboard.currentKeyState[259] = 1;

            CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = 257;     // Add keys pressed into queue
            CORE.Input.Keyboard.keyPressedQueueCount++;
        }
        else
        {
            // Translate lowercase a-z letters to A-Z
            if ((keysBuffer[i] >= 97) && (keysBuffer[i] <= 122))
            {
                CORE.Input.Keyboard.currentKeyState[(int)keysBuffer[i] - 32] = 1;
            }
            else CORE.Input.Keyboard.currentKeyState[(int)keysBuffer[i]] = 1;

            CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = keysBuffer[i];     // Add keys pressed into queue
            CORE.Input.Keyboard.keyPressedQueueCount++;
        }
    }

    // Check exit key (same functionality as GLFW3 KeyCallback())
    if (CORE.Input.Keyboard.currentKeyState[CORE.Input.Keyboard.exitKey] == 1) CORE.Window.shouldClose = true;

#if defined(SUPPORT_SCREEN_CAPTURE)
    // Check screen capture key (raylib key: KEY_F12)
    if (CORE.Input.Keyboard.currentKeyState[301] == 1)
    {
        TakeScreenshot(FormatText("screenshot%03i.png", screenshotCounter));
        screenshotCounter++;
    }
#endif
}

// Restore default keyboard input
static void RestoreKeyboard(void)
{
    // Reset to default keyboard settings
    tcsetattr(STDIN_FILENO, TCSANOW, &CORE.Input.Keyboard.defaultSettings);

    // Reconfigure keyboard to default mode
    ioctl(STDIN_FILENO, KDSKBMODE, CORE.Input.Keyboard.defaultMode);
}
#endif      //SUPPORT_SSH_KEYBOARD_RPI

// Initialise user input from evdev(/dev/input/event<N>) this means mouse, keyboard or gamepad devices
static void InitEvdevInput(void)
{
    char path[MAX_FILEPATH_LENGTH];
    DIR *directory;
    struct dirent *entity;

    // Reset variables
    for (int i = 0; i < MAX_TOUCH_POINTS; ++i)
    {
        CORE.Input.Touch.position[i].x = -1;
        CORE.Input.Touch.position[i].y = -1;
    }

    // Reset keypress buffer
    CORE.Input.Keyboard.lastKeyPressed.head = 0;
    CORE.Input.Keyboard.lastKeyPressed.tail = 0;

    // Reset keyboard key state
    for (int i = 0; i < 512; i++) CORE.Input.Keyboard.currentKeyState[i] = 0;

    // Open the linux directory of "/dev/input"
    directory = opendir(DEFAULT_EVDEV_PATH);

    if (directory)
    {
        while ((entity = readdir(directory)) != NULL)
        {
            if (strncmp("event", entity->d_name, strlen("event")) == 0)         // Search for devices named "event*"
            {
                sprintf(path, "%s%s", DEFAULT_EVDEV_PATH, entity->d_name);
                EventThreadSpawn(path);                                         // Identify the device and spawn a thread for it
            }
        }

        closedir(directory);
    }
    else TRACELOG(LOG_WARNING, "RPI: Failed to open linux event directory: %s", DEFAULT_EVDEV_PATH);
}

// Identifies a input device and spawns a thread to handle it if needed
static void EventThreadSpawn(char *device)
{
    #define BITS_PER_LONG   (sizeof(long)*8)
    #define NBITS(x)        ((((x) - 1)/BITS_PER_LONG) + 1)
    #define OFF(x)          ((x)%BITS_PER_LONG)
    #define BIT(x)          (1UL<<OFF(x))
    #define LONG(x)         ((x)/BITS_PER_LONG)
    #define TEST_BIT(array, bit) ((array[LONG(bit)] >> OFF(bit)) & 1)

    struct input_absinfo absinfo;
    unsigned long evBits[NBITS(EV_MAX)];
    unsigned long absBits[NBITS(ABS_MAX)];
    unsigned long relBits[NBITS(REL_MAX)];
    unsigned long keyBits[NBITS(KEY_MAX)];
    bool hasAbs = false;
    bool hasRel = false;
    bool hasAbsMulti = false;
    int freeWorkerId = -1;
    int fd = -1;

    InputEventWorker *worker;

    // Open the device and allocate worker
    //-------------------------------------------------------------------------------------------------------
    // Find a free spot in the workers array
    for (int i = 0; i < sizeof(CORE.Input.eventWorker)/sizeof(InputEventWorker); ++i)
    {
        if (CORE.Input.eventWorker[i].threadId == 0)
        {
            freeWorkerId = i;
            break;
        }
    }

    // Select the free worker from array
    if (freeWorkerId >= 0)
    {
        worker = &(CORE.Input.eventWorker[freeWorkerId]);       // Grab a pointer to the worker
        memset(worker, 0, sizeof(InputEventWorker));  // Clear the worker
    }
    else
    {
        TRACELOG(LOG_WARNING, "RPI: Failed to create input device thread for %s, out of worker slots", device);
        return;
    }

    // Open the device
    fd = open(device, O_RDONLY | O_NONBLOCK);
    if (fd < 0)
    {
        TRACELOG(LOG_WARNING, "RPI: Failed to open input device (error: %d)", device, worker->fd);
        return;
    }
    worker->fd = fd;

    // Grab number on the end of the devices name "event<N>"
    int devNum = 0;
    char *ptrDevName = strrchr(device, 't');
    worker->eventNum = -1;

    if (ptrDevName != NULL)
    {
        if (sscanf(ptrDevName, "t%d", &devNum) == 1)
            worker->eventNum = devNum;
    }

    // At this point we have a connection to the device, but we don't yet know what the device is.
    // It could be many things, even as simple as a power button...
    //-------------------------------------------------------------------------------------------------------

    // Identify the device
    //-------------------------------------------------------------------------------------------------------
    ioctl(fd, EVIOCGBIT(0, sizeof(evBits)), evBits);    // Read a bitfield of the avalable device properties

    // Check for absolute input devices
    if (TEST_BIT(evBits, EV_ABS))
    {
        ioctl(fd, EVIOCGBIT(EV_ABS, sizeof(absBits)), absBits);

        // Check for absolute movement support (usualy touchscreens, but also joysticks)
        if (TEST_BIT(absBits, ABS_X) && TEST_BIT(absBits, ABS_Y))
        {
            hasAbs = true;

            // Get the scaling values
            ioctl(fd, EVIOCGABS(ABS_X), &absinfo);
            worker->absRange.x = absinfo.minimum;
            worker->absRange.width = absinfo.maximum - absinfo.minimum;
            ioctl(fd, EVIOCGABS(ABS_Y), &absinfo);
            worker->absRange.y = absinfo.minimum;
            worker->absRange.height = absinfo.maximum - absinfo.minimum;
        }

        // Check for multiple absolute movement support (usualy multitouch touchscreens)
        if (TEST_BIT(absBits, ABS_MT_POSITION_X) && TEST_BIT(absBits, ABS_MT_POSITION_Y))
        {
            hasAbsMulti = true;

            // Get the scaling values
            ioctl(fd, EVIOCGABS(ABS_X), &absinfo);
            worker->absRange.x = absinfo.minimum;
            worker->absRange.width = absinfo.maximum - absinfo.minimum;
            ioctl(fd, EVIOCGABS(ABS_Y), &absinfo);
            worker->absRange.y = absinfo.minimum;
            worker->absRange.height = absinfo.maximum - absinfo.minimum;
        }
    }

    // Check for relative movement support (usualy mouse)
    if (TEST_BIT(evBits, EV_REL))
    {
        ioctl(fd, EVIOCGBIT(EV_REL, sizeof(relBits)), relBits);

        if (TEST_BIT(relBits, REL_X) && TEST_BIT(relBits, REL_Y)) hasRel = true;
    }

    // Check for button support to determine the device type(usualy on all input devices)
    if (TEST_BIT(evBits, EV_KEY))
    {
        ioctl(fd, EVIOCGBIT(EV_KEY, sizeof(keyBits)), keyBits);

        if (hasAbs || hasAbsMulti)
        {
            if (TEST_BIT(keyBits, BTN_TOUCH)) worker->isTouch = true;          // This is a touchscreen
            if (TEST_BIT(keyBits, BTN_TOOL_FINGER)) worker->isTouch = true;    // This is a drawing tablet
            if (TEST_BIT(keyBits, BTN_TOOL_PEN)) worker->isTouch = true;       // This is a drawing tablet
            if (TEST_BIT(keyBits, BTN_STYLUS)) worker->isTouch = true;         // This is a drawing tablet
            if (worker->isTouch || hasAbsMulti) worker->isMultitouch = true;   // This is a multitouch capable device
        }

        if (hasRel)
        {
            if (TEST_BIT(keyBits, BTN_LEFT)) worker->isMouse = true;           // This is a mouse
            if (TEST_BIT(keyBits, BTN_RIGHT)) worker->isMouse = true;          // This is a mouse
        }

        if (TEST_BIT(keyBits, BTN_A)) worker->isGamepad = true;                // This is a gamepad
        if (TEST_BIT(keyBits, BTN_TRIGGER)) worker->isGamepad = true;          // This is a gamepad
        if (TEST_BIT(keyBits, BTN_START)) worker->isGamepad = true;            // This is a gamepad
        if (TEST_BIT(keyBits, BTN_TL)) worker->isGamepad = true;               // This is a gamepad
        if (TEST_BIT(keyBits, BTN_TL)) worker->isGamepad = true;               // This is a gamepad

        if (TEST_BIT(keyBits, KEY_SPACE)) worker->isKeyboard = true;           // This is a keyboard
    }
    //-------------------------------------------------------------------------------------------------------

    // Decide what to do with the device
    //-------------------------------------------------------------------------------------------------------
    if (worker->isTouch || worker->isMouse || worker->isKeyboard)
    {
        // Looks like an interesting device
        TRACELOG(LOG_INFO, "RPI: Opening input device: %s (%s%s%s%s%s)", device,
            worker->isMouse? "mouse " : "",
            worker->isMultitouch? "multitouch " : "",
            worker->isTouch? "touchscreen " : "",
            worker->isGamepad? "gamepad " : "",
            worker->isKeyboard? "keyboard " : "");

        // Create a thread for this device
        int error = pthread_create(&worker->threadId, NULL, &EventThread, (void *)worker);
        if (error != 0)
        {
            TRACELOG(LOG_WARNING, "RPI: Failed to create input device thread: %s (error: %d)", device, error);
            worker->threadId = 0;
            close(fd);
        }

#if defined(USE_LAST_TOUCH_DEVICE)
        // Find touchscreen with the highest index
        int maxTouchNumber = -1;

        for (int i = 0; i < sizeof(CORE.Input.eventWorker)/sizeof(InputEventWorker); ++i)
        {
            if (CORE.Input.eventWorker[i].isTouch && (CORE.Input.eventWorker[i].eventNum > maxTouchNumber)) maxTouchNumber = CORE.Input.eventWorker[i].eventNum;
        }

        // Find toucnscreens with lower indexes
        for (int i = 0; i < sizeof(CORE.Input.eventWorker)/sizeof(InputEventWorker); ++i)
        {
            if (CORE.Input.eventWorker[i].isTouch && (CORE.Input.eventWorker[i].eventNum < maxTouchNumber))
            {
                if (CORE.Input.eventWorker[i].threadId != 0)
                {
                    TRACELOG(LOG_WARNING, "RPI: Found duplicate touchscreen, killing touchscreen on event: %d", i);
                    pthread_cancel(CORE.Input.eventWorker[i].threadId);
                    close(CORE.Input.eventWorker[i].fd);
                }
            }
        }
#endif
    }
    else close(fd);  // We are not interested in this device
    //-------------------------------------------------------------------------------------------------------
}

// Input device events reading thread
static void *EventThread(void *arg)
{
    // Scancode to keycode mapping for US keyboards
    // TODO: Probably replace this with a keymap from the X11 to get the correct regional map for the keyboard:
    // Currently non US keyboards will have the wrong mapping for some keys
    static const int keymap_US[] =
        { 0,256,49,50,51,52,53,54,55,56,57,48,45,61,259,258,81,87,69,82,84,
        89,85,73,79,80,91,93,257,341,65,83,68,70,71,72,74,75,76,59,39,96,
        340,92,90,88,67,86,66,78,77,44,46,47,344,332,342,32,280,290,291,
        292,293,294,295,296,297,298,299,282,281,327,328,329,333,324,325,
        326,334,321,322,323,320,330,0,85,86,300,301,89,90,91,92,93,94,95,
        335,345,331,283,346,101,268,265,266,263,262,269,264,267,260,261,
        112,113,114,115,116,117,118,119,120,121,122,123,124,125,347,127,
        128,129,130,131,132,133,134,135,136,137,138,139,140,141,142,143,
        144,145,146,147,148,149,150,151,152,153,154,155,156,157,158,159,
        160,161,162,163,164,165,166,167,168,169,170,171,172,173,174,175,
        176,177,178,179,180,181,182,183,184,185,186,187,188,189,190,191,
        192,193,194,0,0,0,0,0,200,201,202,203,204,205,206,207,208,209,210,
        211,212,213,214,215,216,217,218,219,220,221,222,223,224,225,226,
        227,228,229,230,231,232,233,234,235,236,237,238,239,240,241,242,
        243,244,245,246,247,248,0,0,0,0,0,0,0, };

    struct input_event event;
    InputEventWorker *worker = (InputEventWorker *)arg;

    int touchAction = -1;
    bool gestureUpdate = false;
    int keycode;

    while (!CORE.Window.shouldClose)
    {
        // Try to read data from the device and only continue if successful
        if (read(worker->fd, &event, sizeof(event)) == (int)sizeof(event))
        {
            // Relative movement parsing
            if (event.type == EV_REL)
            {
                if (event.code == REL_X)
                {
                    CORE.Input.Mouse.position.x += event.value;
                    CORE.Input.Touch.position[0].x = CORE.Input.Mouse.position.x;

                    #if defined(SUPPORT_GESTURES_SYSTEM)
                        touchAction = TOUCH_MOVE;
                        gestureUpdate = true;
                    #endif
                }

                if (event.code == REL_Y)
                {
                    CORE.Input.Mouse.position.y += event.value;
                    CORE.Input.Touch.position[0].y = CORE.Input.Mouse.position.y;

                    #if defined(SUPPORT_GESTURES_SYSTEM)
                        touchAction = TOUCH_MOVE;
                        gestureUpdate = true;
                    #endif
                }

                if (event.code == REL_WHEEL) CORE.Input.Mouse.currentWheelMove += event.value;
            }

            // Absolute movement parsing
            if (event.type == EV_ABS)
            {
                // Basic movement
                if (event.code == ABS_X)
                {
                    CORE.Input.Mouse.position.x = (event.value - worker->absRange.x)*CORE.Window.screen.width/worker->absRange.width;   // Scale acording to absRange

                    #if defined(SUPPORT_GESTURES_SYSTEM)
                        touchAction = TOUCH_MOVE;
                        gestureUpdate = true;
                    #endif
                }

                if (event.code == ABS_Y)
                {
                    CORE.Input.Mouse.position.y = (event.value - worker->absRange.y)*CORE.Window.screen.height/worker->absRange.height; // Scale acording to absRange

                    #if defined(SUPPORT_GESTURES_SYSTEM)
                        touchAction = TOUCH_MOVE;
                        gestureUpdate = true;
                    #endif
                }

                // Multitouch movement
                if (event.code == ABS_MT_SLOT) worker->touchSlot = event.value;   // Remeber the slot number for the folowing events

                if (event.code == ABS_MT_POSITION_X)
                {
                    if (worker->touchSlot < MAX_TOUCH_POINTS) CORE.Input.Touch.position[worker->touchSlot].x = (event.value - worker->absRange.x)*CORE.Window.screen.width/worker->absRange.width;    // Scale acording to absRange
                }

                if (event.code == ABS_MT_POSITION_Y)
                {
                    if (worker->touchSlot < MAX_TOUCH_POINTS) CORE.Input.Touch.position[worker->touchSlot].y = (event.value - worker->absRange.y)*CORE.Window.screen.height/worker->absRange.height;  // Scale acording to absRange
                }

                if (event.code == ABS_MT_TRACKING_ID)
                {
                    if ((event.value < 0) && (worker->touchSlot < MAX_TOUCH_POINTS))
                    {
                        // Touch has ended for this point
                        CORE.Input.Touch.position[worker->touchSlot].x = -1;
                        CORE.Input.Touch.position[worker->touchSlot].y = -1;
                    }
                }
            }

            // Button parsing
            if (event.type == EV_KEY)
            {
                // Mouse button parsing
                if ((event.code == BTN_TOUCH) || (event.code == BTN_LEFT))
                {
                    CORE.Input.Mouse.currentButtonStateEvdev[MOUSE_LEFT_BUTTON] = event.value;

                    #if defined(SUPPORT_GESTURES_SYSTEM)
                        if (event.value > 0) touchAction = TOUCH_DOWN;
                        else touchAction = TOUCH_UP;
                        gestureUpdate = true;
                    #endif
                }

                if (event.code == BTN_RIGHT) CORE.Input.Mouse.currentButtonStateEvdev[MOUSE_RIGHT_BUTTON] = event.value;
                if (event.code == BTN_MIDDLE) CORE.Input.Mouse.currentButtonStateEvdev[MOUSE_MIDDLE_BUTTON] = event.value;

                // Keyboard button parsing
                if ((event.code >= 1) && (event.code <= 255))     //Keyboard keys appear for codes 1 to 255
                {
                    keycode = keymap_US[event.code & 0xFF];     // The code we get is a scancode so we look up the apropriate keycode

                    // Make sure we got a valid keycode
                    if ((keycode > 0) && (keycode < sizeof(CORE.Input.Keyboard.currentKeyState)))
                    {
                        /* Disabled buffer !!
                        // Store the key information for raylib to later use
                        CORE.Input.Keyboard.currentKeyState[keycode] = event.value;
                        if (event.value > 0)
                        {
                            // Add the key int the fifo
                            CORE.Input.Keyboard.lastKeyPressed.contents[CORE.Input.Keyboard.lastKeyPressed.head] = keycode;   // Put the data at the front of the fifo snake
                            CORE.Input.Keyboard.lastKeyPressed.head = (CORE.Input.Keyboard.lastKeyPressed.head + 1) & 0x07;   // Increment the head pointer forwards and binary wraparound after 7 (fifo is 8 elements long)
                            // TODO: This fifo is not fully threadsafe with multiple writers, so multiple keyboards hitting a key at the exact same time could miss a key (double write to head before it was incremented)
                        }
                        */

                        CORE.Input.Keyboard.currentKeyState[keycode] = event.value;
                        if (event.value == 1)
                        {
                            CORE.Input.Keyboard.keyPressedQueue[CORE.Input.Keyboard.keyPressedQueueCount] = keycode;     // Register last key pressed
                            CORE.Input.Keyboard.keyPressedQueueCount++;
                        }

                        #if defined(SUPPORT_SCREEN_CAPTURE)
                            // Check screen capture key (raylib key: KEY_F12)
                            if (CORE.Input.Keyboard.currentKeyState[301] == 1)
                            {
                                TakeScreenshot(FormatText("screenshot%03i.png", screenshotCounter));
                                screenshotCounter++;
                            }
                        #endif

                        if (CORE.Input.Keyboard.currentKeyState[CORE.Input.Keyboard.exitKey] == 1) CORE.Window.shouldClose = true;

                        TRACELOGD("RPI: KEY_%s ScanCode: %4i KeyCode: %4i", event.value == 0 ? "UP":"DOWN", event.code, keycode);
                    }
                }
            }

            // Screen confinement
            if (CORE.Input.Mouse.position.x < 0) CORE.Input.Mouse.position.x = 0;
            if (CORE.Input.Mouse.position.x > CORE.Window.screen.width/CORE.Input.Mouse.scale.x) CORE.Input.Mouse.position.x = CORE.Window.screen.width/CORE.Input.Mouse.scale.x;

            if (CORE.Input.Mouse.position.y < 0) CORE.Input.Mouse.position.y = 0;
            if (CORE.Input.Mouse.position.y > CORE.Window.screen.height/CORE.Input.Mouse.scale.y) CORE.Input.Mouse.position.y = CORE.Window.screen.height/CORE.Input.Mouse.scale.y;

            // Gesture update
            if (gestureUpdate)
            {
            #if defined(SUPPORT_GESTURES_SYSTEM)
                GestureEvent gestureEvent = { 0 };

                gestureEvent.pointCount = 0;
                gestureEvent.touchAction = touchAction;

                if (CORE.Input.Touch.position[0].x >= 0) gestureEvent.pointCount++;
                if (CORE.Input.Touch.position[1].x >= 0) gestureEvent.pointCount++;
                if (CORE.Input.Touch.position[2].x >= 0) gestureEvent.pointCount++;
                if (CORE.Input.Touch.position[3].x >= 0) gestureEvent.pointCount++;

                gestureEvent.pointerId[0] = 0;
                gestureEvent.pointerId[1] = 1;
                gestureEvent.pointerId[2] = 2;
                gestureEvent.pointerId[3] = 3;

                gestureEvent.position[0] = CORE.Input.Touch.position[0];
                gestureEvent.position[1] = CORE.Input.Touch.position[1];
                gestureEvent.position[2] = CORE.Input.Touch.position[2];
                gestureEvent.position[3] = CORE.Input.Touch.position[3];

                ProcessGestureEvent(gestureEvent);
            #endif
            }
        }
        else
        {
            usleep(5000); // Sleep for 5ms to avoid hogging CPU time
        }
    }

    close(worker->fd);

    return NULL;
}

// Init gamepad system
static void InitGamepad(void)
{
    char gamepadDev[128] = "";

    for (int i = 0; i < MAX_GAMEPADS; i++)
    {
        sprintf(gamepadDev, "%s%i", DEFAULT_GAMEPAD_DEV, i);

        if ((CORE.Input.Gamepad.streamId[i] = open(gamepadDev, O_RDONLY|O_NONBLOCK)) < 0)
        {
            // NOTE: Only show message for first gamepad
            if (i == 0) TRACELOG(LOG_WARNING, "RPI: Failed to open Gamepad device, no gamepad available");
        }
        else
        {
            CORE.Input.Gamepad.ready[i] = true;

            // NOTE: Only create one thread
            if (i == 0)
            {
                int error = pthread_create(&CORE.Input.Gamepad.threadId, NULL, &GamepadThread, NULL);

                if (error != 0) TRACELOG(LOG_WARNING, "RPI: Failed to create gamepad input event thread");
                else  TRACELOG(LOG_INFO, "RPI: Gamepad device initialized successfully");
            }
        }
    }
}

// Process Gamepad (/dev/input/js0)
static void *GamepadThread(void *arg)
{
    #define JS_EVENT_BUTTON         0x01    // Button pressed/released
    #define JS_EVENT_AXIS           0x02    // Joystick axis moved
    #define JS_EVENT_INIT           0x80    // Initial state of device

    struct js_event {
        unsigned int time;      // event timestamp in milliseconds
        short value;            // event value
        unsigned char type;     // event type
        unsigned char number;   // event axis/button number
    };

    // Read gamepad event
    struct js_event gamepadEvent;

    while (!CORE.Window.shouldClose)
    {
        for (int i = 0; i < MAX_GAMEPADS; i++)
        {
            if (read(CORE.Input.Gamepad.streamId[i], &gamepadEvent, sizeof(struct js_event)) == (int)sizeof(struct js_event))
            {
                gamepadEvent.type &= ~JS_EVENT_INIT;     // Ignore synthetic events

                // Process gamepad events by type
                if (gamepadEvent.type == JS_EVENT_BUTTON)
                {
                    TRACELOGD("RPI: Gamepad button: %i, value: %i", gamepadEvent.number, gamepadEvent.value);

                    if (gamepadEvent.number < MAX_GAMEPAD_BUTTONS)
                    {
                        // 1 - button pressed, 0 - button released
                        CORE.Input.Gamepad.currentState[i][gamepadEvent.number] = (int)gamepadEvent.value;

                        if ((int)gamepadEvent.value == 1) CORE.Input.Gamepad.lastButtonPressed = gamepadEvent.number;
                        else CORE.Input.Gamepad.lastButtonPressed = -1;
                    }
                }
                else if (gamepadEvent.type == JS_EVENT_AXIS)
                {
                    TRACELOGD("RPI: Gamepad axis: %i, value: %i", gamepadEvent.number, gamepadEvent.value);

                    if (gamepadEvent.number < MAX_GAMEPAD_AXIS)
                    {
                        // NOTE: Scaling of gamepadEvent.value to get values between -1..1
                        CORE.Input.Gamepad.axisState[i][gamepadEvent.number] = (float)gamepadEvent.value/32768;
                    }
                }
            }
            else
            {
                usleep(1000); //Sleep for 1ms to avoid hogging CPU time
            }
        }
    }

    return NULL;
}
#endif      // PLATFORM_RPI