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marshal.h
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marshal.h
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//--- CORE ----------------------------------------------------------------------------------------
#define GRAPHICS_API_OPENGL_11
// #define RLGL_IMPLEMENTATION
#include "raylib.h"
#include "rlgl.h"
#include "raymath.h"
// Enable vertex state pointer
void rlEnableStatePointer(int vertexAttribType, void *buffer);
// Disable vertex state pointer
void rlDisableStatePointer(int vertexAttribType);// Initialize window and OpenGL context
void mInitWindow(int width, int height, const char * title);
// Close window and unload OpenGL context
void mCloseWindow(void);
// Check if application should close (KEY_ESCAPE pressed or windows close icon clicked)
bool mWindowShouldClose(void);
// Check if window has been initialized successfully
bool mIsWindowReady(void);
// Check if window is currently fullscreen
bool mIsWindowFullscreen(void);
// Check if window is currently hidden (only PLATFORM_DESKTOP)
bool mIsWindowHidden(void);
// Check if window is currently minimized (only PLATFORM_DESKTOP)
bool mIsWindowMinimized(void);
// Check if window is currently maximized (only PLATFORM_DESKTOP)
bool mIsWindowMaximized(void);
// Check if window is currently focused (only PLATFORM_DESKTOP)
bool mIsWindowFocused(void);
// Check if window has been resized last frame
bool mIsWindowResized(void);
// Check if one specific window flag is enabled
bool mIsWindowState(unsigned int flag);
// Set window configuration state using flags (only PLATFORM_DESKTOP)
void mSetWindowState(unsigned int flags);
// Clear window configuration state flags
void mClearWindowState(unsigned int flags);
// Toggle window state: fullscreen/windowed (only PLATFORM_DESKTOP)
void mToggleFullscreen(void);
// Toggle window state: borderless windowed (only PLATFORM_DESKTOP)
void mToggleBorderlessWindowed(void);
// Set window state: maximized, if resizable (only PLATFORM_DESKTOP)
void mMaximizeWindow(void);
// Set window state: minimized, if resizable (only PLATFORM_DESKTOP)
void mMinimizeWindow(void);
// Set window state: not minimized/maximized (only PLATFORM_DESKTOP)
void mRestoreWindow(void);
// Set icon for window (single image, RGBA 32bit, only PLATFORM_DESKTOP)
void mSetWindowIcon(Image *image);
// Set icon for window (multiple images, RGBA 32bit, only PLATFORM_DESKTOP)
void mSetWindowIcons(Image * images, int count);
// Set title for window (only PLATFORM_DESKTOP and PLATFORM_WEB)
void mSetWindowTitle(const char * title);
// Set window position on screen (only PLATFORM_DESKTOP)
void mSetWindowPosition(int x, int y);
// Set monitor for the current window
void mSetWindowMonitor(int monitor);
// Set window minimum dimensions (for FLAG_WINDOW_RESIZABLE)
void mSetWindowMinSize(int width, int height);
// Set window maximum dimensions (for FLAG_WINDOW_RESIZABLE)
void mSetWindowMaxSize(int width, int height);
// Set window dimensions
void mSetWindowSize(int width, int height);
// Set window opacity [0.0f..1.0f] (only PLATFORM_DESKTOP)
void mSetWindowOpacity(float opacity);
// Set window focused (only PLATFORM_DESKTOP)
void mSetWindowFocused(void);
// Get current screen width
int mGetScreenWidth(void);
// Get current screen height
int mGetScreenHeight(void);
// Get current render width (it considers HiDPI)
int mGetRenderWidth(void);
// Get current render height (it considers HiDPI)
int mGetRenderHeight(void);
// Get number of connected monitors
int mGetMonitorCount(void);
// Get current connected monitor
int mGetCurrentMonitor(void);
// Get specified monitor position
void mGetMonitorPosition(Vector2 *out, int monitor);
// Get specified monitor width (current video mode used by monitor)
int mGetMonitorWidth(int monitor);
// Get specified monitor height (current video mode used by monitor)
int mGetMonitorHeight(int monitor);
// Get specified monitor physical width in millimetres
int mGetMonitorPhysicalWidth(int monitor);
// Get specified monitor physical height in millimetres
int mGetMonitorPhysicalHeight(int monitor);
// Get specified monitor refresh rate
int mGetMonitorRefreshRate(int monitor);
// Get window position XY on monitor
void mGetWindowPosition(Vector2 *out);
// Get window scale DPI factor
void mGetWindowScaleDPI(Vector2 *out);
// Get the human-readable, UTF-8 encoded name of the specified monitor
const char * mGetMonitorName(int monitor);
// Set clipboard text content
void mSetClipboardText(const char * text);
// Get clipboard text content
const char * mGetClipboardText(void);
// Enable waiting for events on EndDrawing(), no automatic event polling
void mEnableEventWaiting(void);
// Disable waiting for events on EndDrawing(), automatic events polling
void mDisableEventWaiting(void);
// Shows cursor
void mShowCursor(void);
// Hides cursor
void mHideCursor(void);
// Check if cursor is not visible
bool mIsCursorHidden(void);
// Enables cursor (unlock cursor)
void mEnableCursor(void);
// Disables cursor (lock cursor)
void mDisableCursor(void);
// Check if cursor is on the screen
bool mIsCursorOnScreen(void);
// Set background color (framebuffer clear color)
void mClearBackground(Color *color);
// Setup canvas (framebuffer) to start drawing
void mBeginDrawing(void);
// End canvas drawing and swap buffers (double buffering)
void mEndDrawing(void);
// Begin 2D mode with custom camera (2D)
void mBeginMode2D(Camera2D *camera);
// Ends 2D mode with custom camera
void mEndMode2D(void);
// Begin 3D mode with custom camera (3D)
void mBeginMode3D(Camera3D *camera);
// Ends 3D mode and returns to default 2D orthographic mode
void mEndMode3D(void);
// Begin drawing to render texture
void mBeginTextureMode(RenderTexture2D *target);
// Ends drawing to render texture
void mEndTextureMode(void);
// Begin custom shader drawing
void mBeginShaderMode(Shader *shader);
// End custom shader drawing (use default shader)
void mEndShaderMode(void);
// Begin blending mode (alpha, additive, multiplied, subtract, custom)
void mBeginBlendMode(int mode);
// End blending mode (reset to default: alpha blending)
void mEndBlendMode(void);
// Begin scissor mode (define screen area for following drawing)
void mBeginScissorMode(int x, int y, int width, int height);
// End scissor mode
void mEndScissorMode(void);
// Begin stereo rendering (requires VR simulator)
void mBeginVrStereoMode(VrStereoConfig *config);
// End stereo rendering (requires VR simulator)
void mEndVrStereoMode(void);
// Load VR stereo config for VR simulator device parameters
void mLoadVrStereoConfig(VrStereoConfig *out, VrDeviceInfo *device);
// Unload VR stereo config
void mUnloadVrStereoConfig(VrStereoConfig *config);
// Load shader from files and bind default locations
void mLoadShader(Shader *out, const char * vsFileName, const char * fsFileName);
// Load shader from code strings and bind default locations
void mLoadShaderFromMemory(Shader *out, const char * vsCode, const char * fsCode);
// Check if a shader is ready
bool mIsShaderReady(Shader *shader);
// Get shader uniform location
int mGetShaderLocation(Shader *shader, const char * uniformName);
// Get shader attribute location
int mGetShaderLocationAttrib(Shader *shader, const char * attribName);
// Set shader uniform value
void mSetShaderValue(Shader *shader, int locIndex, const void * value, int uniformType);
// Set shader uniform value vector
void mSetShaderValueV(Shader *shader, int locIndex, const void * value, int uniformType, int count);
// Set shader uniform value (matrix 4x4)
void mSetShaderValueMatrix(Shader *shader, int locIndex, Matrix *mat);
// Set shader uniform value for texture (sampler2d)
void mSetShaderValueTexture(Shader *shader, int locIndex, Texture2D *texture);
// Unload shader from GPU memory (VRAM)
void mUnloadShader(Shader *shader);
// Get a ray trace from mouse position
void mGetMouseRay(Ray *out, Vector2 *mousePosition, Camera3D *camera);
// Get camera transform matrix (view matrix)
void mGetCameraMatrix(Matrix *out, Camera3D *camera);
// Get camera 2d transform matrix
void mGetCameraMatrix2D(Matrix *out, Camera2D *camera);
// Get the screen space position for a 3d world space position
void mGetWorldToScreen(Vector2 *out, Vector3 *position, Camera3D *camera);
// Get the world space position for a 2d camera screen space position
void mGetScreenToWorld2D(Vector2 *out, Vector2 *position, Camera2D *camera);
// Get size position for a 3d world space position
void mGetWorldToScreenEx(Vector2 *out, Vector3 *position, Camera3D *camera, int width, int height);
// Get the screen space position for a 2d camera world space position
void mGetWorldToScreen2D(Vector2 *out, Vector2 *position, Camera2D *camera);
// Set target FPS (maximum)
void mSetTargetFPS(int fps);
// Get time in seconds for last frame drawn (delta time)
float mGetFrameTime(void);
// Get elapsed time in seconds since InitWindow()
double mGetTime(void);
// Get current FPS
int mGetFPS(void);
// Swap back buffer with front buffer (screen drawing)
void mSwapScreenBuffer(void);
// Register all input events
void mPollInputEvents(void);
// Wait for some time (halt program execution)
void mWaitTime(double seconds);
// Set the seed for the random number generator
void mSetRandomSeed(unsigned int seed);
// Get a random value between min and max (both included)
int mGetRandomValue(int min, int max);
// Load random values sequence, no values repeated
int * mLoadRandomSequence(unsigned int count, int min, int max);
// Unload random values sequence
void mUnloadRandomSequence(int * sequence);
// Takes a screenshot of current screen (filename extension defines format)
void mTakeScreenshot(const char * fileName);
// Open URL with default system browser (if available)
void mOpenURL(const char * url);
// Set the current threshold (minimum) log level
void mSetTraceLogLevel(int logLevel);
// Set custom file binary data loader
void mSetLoadFileDataCallback(LoadFileDataCallback callback);
// Set custom file binary data saver
void mSetSaveFileDataCallback(SaveFileDataCallback callback);
// Set custom file text data loader
void mSetLoadFileTextCallback(LoadFileTextCallback callback);
// Set custom file text data saver
void mSetSaveFileTextCallback(SaveFileTextCallback callback);
// Save data to file from byte array (write), returns true on success
bool mSaveFileData(const char * fileName, void * data, int dataSize);
// Export data to code (.h), returns true on success
bool mExportDataAsCode(const unsigned char * data, int dataSize, const char * fileName);
// Load text data from file (read), returns a '\0' terminated string
char * mLoadFileText(const char * fileName);
// Unload file text data allocated by LoadFileText()
void mUnloadFileText(char * text);
// Save text data to file (write), string must be '\0' terminated, returns true on success
bool mSaveFileText(const char * fileName, char * text);
// Check if file exists
bool mFileExists(const char * fileName);
// Check if a directory path exists
bool mDirectoryExists(const char * dirPath);
// Check file extension (including point: .png, .wav)
bool mIsFileExtension(const char * fileName, const char * ext);
// Get file length in bytes (NOTE: GetFileSize() conflicts with windows.h)
int mGetFileLength(const char * fileName);
// Get pointer to extension for a filename string (includes dot: '.png')
const char * mGetFileExtension(const char * fileName);
// Get pointer to filename for a path string
const char * mGetFileName(const char * filePath);
// Get filename string without extension (uses static string)
const char * mGetFileNameWithoutExt(const char * filePath);
// Get full path for a given fileName with path (uses static string)
const char * mGetDirectoryPath(const char * filePath);
// Get previous directory path for a given path (uses static string)
const char * mGetPrevDirectoryPath(const char * dirPath);
// Get current working directory (uses static string)
const char * mGetWorkingDirectory(void);
// Get the directory of the running application (uses static string)
const char * mGetApplicationDirectory(void);
// Change working directory, return true on success
bool mChangeDirectory(const char * dir);
// Check if a given path is a file or a directory
bool mIsPathFile(const char * path);
// Load directory filepaths
void mLoadDirectoryFiles(FilePathList *out, const char * dirPath);
// Load directory filepaths with extension filtering and recursive directory scan
void mLoadDirectoryFilesEx(FilePathList *out, const char * basePath, const char * filter, bool scanSubdirs);
// Unload filepaths
void mUnloadDirectoryFiles(FilePathList *files);
// Check if a file has been dropped into window
bool mIsFileDropped(void);
// Load dropped filepaths
void mLoadDroppedFiles(FilePathList *out);
// Unload dropped filepaths
void mUnloadDroppedFiles(FilePathList *files);
// Get file modification time (last write time)
long mGetFileModTime(const char * fileName);
// Compress data (DEFLATE algorithm), memory must be MemFree()
unsigned char * mCompressData(const unsigned char * data, int dataSize, int * compDataSize);
// Decompress data (DEFLATE algorithm), memory must be MemFree()
unsigned char * mDecompressData(const unsigned char * compData, int compDataSize, int * dataSize);
// Encode data to Base64 string, memory must be MemFree()
char * mEncodeDataBase64(const unsigned char * data, int dataSize, int * outputSize);
// Decode Base64 string data, memory must be MemFree()
unsigned char * mDecodeDataBase64(const unsigned char * data, int * outputSize);
// Load automation events list from file, NULL for empty list, capacity = MAX_AUTOMATION_EVENTS
void mLoadAutomationEventList(AutomationEventList *out, const char * fileName);
// Unload automation events list from file
void mUnloadAutomationEventList(AutomationEventList *list);
// Export automation events list as text file
bool mExportAutomationEventList(AutomationEventList *list, const char * fileName);
// Set automation event list to record to
void mSetAutomationEventList(AutomationEventList * list);
// Set automation event internal base frame to start recording
void mSetAutomationEventBaseFrame(int frame);
// Start recording automation events (AutomationEventList must be set)
void mStartAutomationEventRecording(void);
// Stop recording automation events
void mStopAutomationEventRecording(void);
// Play a recorded automation event
void mPlayAutomationEvent(AutomationEvent *event);
// Check if a key has been pressed once
bool mIsKeyPressed(int key);
// Check if a key has been pressed again (Only PLATFORM_DESKTOP)
bool mIsKeyPressedRepeat(int key);
// Check if a key is being pressed
bool mIsKeyDown(int key);
// Check if a key has been released once
bool mIsKeyReleased(int key);
// Check if a key is NOT being pressed
bool mIsKeyUp(int key);
// Get key pressed (keycode), call it multiple times for keys queued, returns 0 when the queue is empty
int mGetKeyPressed(void);
// Get char pressed (unicode), call it multiple times for chars queued, returns 0 when the queue is empty
int mGetCharPressed(void);
// Set a custom key to exit program (default is ESC)
void mSetExitKey(int key);
// Check if a gamepad is available
bool mIsGamepadAvailable(int gamepad);
// Get gamepad internal name id
const char * mGetGamepadName(int gamepad);
// Check if a gamepad button has been pressed once
bool mIsGamepadButtonPressed(int gamepad, int button);
// Check if a gamepad button is being pressed
bool mIsGamepadButtonDown(int gamepad, int button);
// Check if a gamepad button has been released once
bool mIsGamepadButtonReleased(int gamepad, int button);
// Check if a gamepad button is NOT being pressed
bool mIsGamepadButtonUp(int gamepad, int button);
// Get gamepad axis count for a gamepad
int mGetGamepadAxisCount(int gamepad);
// Get axis movement value for a gamepad axis
float mGetGamepadAxisMovement(int gamepad, int axis);
// Set internal gamepad mappings (SDL_GameControllerDB)
int mSetGamepadMappings(const char * mappings);
// Check if a mouse button has been pressed once
bool mIsMouseButtonPressed(int button);
// Check if a mouse button is being pressed
bool mIsMouseButtonDown(int button);
// Check if a mouse button has been released once
bool mIsMouseButtonReleased(int button);
// Check if a mouse button is NOT being pressed
bool mIsMouseButtonUp(int button);
// Get mouse position X
int mGetMouseX(void);
// Get mouse position Y
int mGetMouseY(void);
// Get mouse position XY
void mGetMousePosition(Vector2 *out);
// Get mouse delta between frames
void mGetMouseDelta(Vector2 *out);
// Set mouse position XY
void mSetMousePosition(int x, int y);
// Set mouse offset
void mSetMouseOffset(int offsetX, int offsetY);
// Set mouse scaling
void mSetMouseScale(float scaleX, float scaleY);
// Get mouse wheel movement for X or Y, whichever is larger
float mGetMouseWheelMove(void);
// Get mouse wheel movement for both X and Y
void mGetMouseWheelMoveV(Vector2 *out);
// Set mouse cursor
void mSetMouseCursor(int cursor);
// Get touch position X for touch point 0 (relative to screen size)
int mGetTouchX(void);
// Get touch position Y for touch point 0 (relative to screen size)
int mGetTouchY(void);
// Get touch position XY for a touch point index (relative to screen size)
void mGetTouchPosition(Vector2 *out, int index);
// Get touch point identifier for given index
int mGetTouchPointId(int index);
// Get number of touch points
int mGetTouchPointCount(void);
// Enable a set of gestures using flags
void mSetGesturesEnabled(unsigned int flags);
// Check if a gesture have been detected
bool mIsGestureDetected(unsigned int gesture);
// Get latest detected gesture
int mGetGestureDetected(void);
// Get gesture hold time in milliseconds
float mGetGestureHoldDuration(void);
// Get gesture drag vector
void mGetGestureDragVector(Vector2 *out);
// Get gesture drag angle
float mGetGestureDragAngle(void);
// Get gesture pinch delta
void mGetGesturePinchVector(Vector2 *out);
// Get gesture pinch angle
float mGetGesturePinchAngle(void);
// Update camera position for selected mode
void mUpdateCamera(Camera * camera, int mode);
// Update camera movement/rotation
void mUpdateCameraPro(Camera * camera, Vector3 *movement, Vector3 *rotation, float zoom);
// Set texture and rectangle to be used on shapes drawing
void mSetShapesTexture(Texture2D *texture, Rectangle *source);
// Get texture that is used for shapes drawing
void mGetShapesTexture(Texture2D *out);
// Get texture source rectangle that is used for shapes drawing
void mGetShapesTextureRectangle(Rectangle *out);
// Draw a pixel
void mDrawPixel(int posX, int posY, Color *color);
// Draw a pixel (Vector version)
void mDrawPixelV(Vector2 *position, Color *color);
// Draw a line
void mDrawLine(int startPosX, int startPosY, int endPosX, int endPosY, Color *color);
// Draw a line (using gl lines)
void mDrawLineV(Vector2 *startPos, Vector2 *endPos, Color *color);
// Draw a line (using triangles/quads)
void mDrawLineEx(Vector2 *startPos, Vector2 *endPos, float thick, Color *color);
// Draw lines sequence (using gl lines)
void mDrawLineStrip(Vector2 * points, int pointCount, Color *color);
// Draw line segment cubic-bezier in-out interpolation
void mDrawLineBezier(Vector2 *startPos, Vector2 *endPos, float thick, Color *color);
// Draw a color-filled circle
void mDrawCircle(int centerX, int centerY, float radius, Color *color);
// Draw a piece of a circle
void mDrawCircleSector(Vector2 *center, float radius, float startAngle, float endAngle, int segments, Color *color);
// Draw circle sector outline
void mDrawCircleSectorLines(Vector2 *center, float radius, float startAngle, float endAngle, int segments, Color *color);
// Draw a gradient-filled circle
void mDrawCircleGradient(int centerX, int centerY, float radius, Color *color1, Color *color2);
// Draw a color-filled circle (Vector version)
void mDrawCircleV(Vector2 *center, float radius, Color *color);
// Draw circle outline
void mDrawCircleLines(int centerX, int centerY, float radius, Color *color);
// Draw circle outline (Vector version)
void mDrawCircleLinesV(Vector2 *center, float radius, Color *color);
// Draw ellipse
void mDrawEllipse(int centerX, int centerY, float radiusH, float radiusV, Color *color);
// Draw ellipse outline
void mDrawEllipseLines(int centerX, int centerY, float radiusH, float radiusV, Color *color);
// Draw ring
void mDrawRing(Vector2 *center, float innerRadius, float outerRadius, float startAngle, float endAngle, int segments, Color *color);
// Draw ring outline
void mDrawRingLines(Vector2 *center, float innerRadius, float outerRadius, float startAngle, float endAngle, int segments, Color *color);
// Draw a color-filled rectangle
void mDrawRectangle(int posX, int posY, int width, int height, Color *color);
// Draw a color-filled rectangle (Vector version)
void mDrawRectangleV(Vector2 *position, Vector2 *size, Color *color);
// Draw a color-filled rectangle
void mDrawRectangleRec(Rectangle *rec, Color *color);
// Draw a color-filled rectangle with pro parameters
void mDrawRectanglePro(Rectangle *rec, Vector2 *origin, float rotation, Color *color);
// Draw a vertical-gradient-filled rectangle
void mDrawRectangleGradientV(int posX, int posY, int width, int height, Color *color1, Color *color2);
// Draw a horizontal-gradient-filled rectangle
void mDrawRectangleGradientH(int posX, int posY, int width, int height, Color *color1, Color *color2);
// Draw a gradient-filled rectangle with custom vertex colors
void mDrawRectangleGradientEx(Rectangle *rec, Color *col1, Color *col2, Color *col3, Color *col4);
// Draw rectangle outline
void mDrawRectangleLines(int posX, int posY, int width, int height, Color *color);
// Draw rectangle outline with extended parameters
void mDrawRectangleLinesEx(Rectangle *rec, float lineThick, Color *color);
// Draw rectangle with rounded edges
void mDrawRectangleRounded(Rectangle *rec, float roundness, int segments, Color *color);
// Draw rectangle with rounded edges outline
void mDrawRectangleRoundedLines(Rectangle *rec, float roundness, int segments, float lineThick, Color *color);
// Draw a color-filled triangle (vertex in counter-clockwise order!)
void mDrawTriangle(Vector2 *v1, Vector2 *v2, Vector2 *v3, Color *color);
// Draw triangle outline (vertex in counter-clockwise order!)
void mDrawTriangleLines(Vector2 *v1, Vector2 *v2, Vector2 *v3, Color *color);
// Draw a triangle fan defined by points (first vertex is the center)
void mDrawTriangleFan(Vector2 * points, int pointCount, Color *color);
// Draw a triangle strip defined by points
void mDrawTriangleStrip(Vector2 * points, int pointCount, Color *color);
// Draw a regular polygon (Vector version)
void mDrawPoly(Vector2 *center, int sides, float radius, float rotation, Color *color);
// Draw a polygon outline of n sides
void mDrawPolyLines(Vector2 *center, int sides, float radius, float rotation, Color *color);
// Draw a polygon outline of n sides with extended parameters
void mDrawPolyLinesEx(Vector2 *center, int sides, float radius, float rotation, float lineThick, Color *color);
// Draw spline: Linear, minimum 2 points
void mDrawSplineLinear(Vector2 * points, int pointCount, float thick, Color *color);
// Draw spline: B-Spline, minimum 4 points
void mDrawSplineBasis(Vector2 * points, int pointCount, float thick, Color *color);
// Draw spline: Catmull-Rom, minimum 4 points
void mDrawSplineCatmullRom(Vector2 * points, int pointCount, float thick, Color *color);
// Draw spline: Quadratic Bezier, minimum 3 points (1 control point): [p1, c2, p3, c4...]
void mDrawSplineBezierQuadratic(Vector2 * points, int pointCount, float thick, Color *color);
// Draw spline: Cubic Bezier, minimum 4 points (2 control points): [p1, c2, c3, p4, c5, c6...]
void mDrawSplineBezierCubic(Vector2 * points, int pointCount, float thick, Color *color);
// Draw spline segment: Linear, 2 points
void mDrawSplineSegmentLinear(Vector2 *p1, Vector2 *p2, float thick, Color *color);
// Draw spline segment: B-Spline, 4 points
void mDrawSplineSegmentBasis(Vector2 *p1, Vector2 *p2, Vector2 *p3, Vector2 *p4, float thick, Color *color);
// Draw spline segment: Catmull-Rom, 4 points
void mDrawSplineSegmentCatmullRom(Vector2 *p1, Vector2 *p2, Vector2 *p3, Vector2 *p4, float thick, Color *color);
// Draw spline segment: Quadratic Bezier, 2 points, 1 control point
void mDrawSplineSegmentBezierQuadratic(Vector2 *p1, Vector2 *c2, Vector2 *p3, float thick, Color *color);
// Draw spline segment: Cubic Bezier, 2 points, 2 control points
void mDrawSplineSegmentBezierCubic(Vector2 *p1, Vector2 *c2, Vector2 *c3, Vector2 *p4, float thick, Color *color);
// Get (evaluate) spline point: Linear
void mGetSplinePointLinear(Vector2 *out, Vector2 *startPos, Vector2 *endPos, float t);
// Get (evaluate) spline point: B-Spline
void mGetSplinePointBasis(Vector2 *out, Vector2 *p1, Vector2 *p2, Vector2 *p3, Vector2 *p4, float t);
// Get (evaluate) spline point: Catmull-Rom
void mGetSplinePointCatmullRom(Vector2 *out, Vector2 *p1, Vector2 *p2, Vector2 *p3, Vector2 *p4, float t);
// Get (evaluate) spline point: Quadratic Bezier
void mGetSplinePointBezierQuad(Vector2 *out, Vector2 *p1, Vector2 *c2, Vector2 *p3, float t);
// Get (evaluate) spline point: Cubic Bezier
void mGetSplinePointBezierCubic(Vector2 *out, Vector2 *p1, Vector2 *c2, Vector2 *c3, Vector2 *p4, float t);
// Check collision between two rectangles
bool mCheckCollisionRecs(Rectangle *rec1, Rectangle *rec2);
// Check collision between two circles
bool mCheckCollisionCircles(Vector2 *center1, float radius1, Vector2 *center2, float radius2);
// Check collision between circle and rectangle
bool mCheckCollisionCircleRec(Vector2 *center, float radius, Rectangle *rec);
// Check if point is inside rectangle
bool mCheckCollisionPointRec(Vector2 *point, Rectangle *rec);
// Check if point is inside circle
bool mCheckCollisionPointCircle(Vector2 *point, Vector2 *center, float radius);
// Check if point is inside a triangle
bool mCheckCollisionPointTriangle(Vector2 *point, Vector2 *p1, Vector2 *p2, Vector2 *p3);
// Check if point is within a polygon described by array of vertices
bool mCheckCollisionPointPoly(Vector2 *point, Vector2 * points, int pointCount);
// Check the collision between two lines defined by two points each, returns collision point by reference
bool mCheckCollisionLines(Vector2 *startPos1, Vector2 *endPos1, Vector2 *startPos2, Vector2 *endPos2, Vector2 * collisionPoint);
// Check if point belongs to line created between two points [p1] and [p2] with defined margin in pixels [threshold]
bool mCheckCollisionPointLine(Vector2 *point, Vector2 *p1, Vector2 *p2, int threshold);
// Get collision rectangle for two rectangles collision
void mGetCollisionRec(Rectangle *out, Rectangle *rec1, Rectangle *rec2);
// Load image from file into CPU memory (RAM)
void mLoadImage(Image *out, const char * fileName);
// Load image from RAW file data
void mLoadImageRaw(Image *out, const char * fileName, int width, int height, int format, int headerSize);
// Load image from SVG file data or string with specified size
void mLoadImageSvg(Image *out, const char * fileNameOrString, int width, int height);
// Load image sequence from file (frames appended to image.data)
void mLoadImageAnim(Image *out, const char * fileName, int * frames);
// Load image sequence from memory buffer
void mLoadImageAnimFromMemory(Image *out, const char * fileType, const unsigned char * fileData, int dataSize, int * frames);
// Load image from memory buffer, fileType refers to extension: i.e. '.png'
void mLoadImageFromMemory(Image *out, const char * fileType, const unsigned char * fileData, int dataSize);
// Load image from GPU texture data
void mLoadImageFromTexture(Image *out, Texture2D *texture);
// Load image from screen buffer and (screenshot)
void mLoadImageFromScreen(Image *out);
// Check if an image is ready
bool mIsImageReady(Image *image);
// Unload image from CPU memory (RAM)
void mUnloadImage(Image *image);
// Export image data to file, returns true on success
bool mExportImage(Image *image, const char * fileName);
// Export image to memory buffer
unsigned char * mExportImageToMemory(Image *image, const char * fileType, int * fileSize);
// Export image as code file defining an array of bytes, returns true on success
bool mExportImageAsCode(Image *image, const char * fileName);
// Generate image: plain color
void mGenImageColor(Image *out, int width, int height, Color *color);
// Generate image: linear gradient, direction in degrees [0..360], 0=Vertical gradient
void mGenImageGradientLinear(Image *out, int width, int height, int direction, Color *start, Color *end);
// Generate image: radial gradient
void mGenImageGradientRadial(Image *out, int width, int height, float density, Color *inner, Color *outer);
// Generate image: square gradient
void mGenImageGradientSquare(Image *out, int width, int height, float density, Color *inner, Color *outer);
// Generate image: checked
void mGenImageChecked(Image *out, int width, int height, int checksX, int checksY, Color *col1, Color *col2);
// Generate image: white noise
void mGenImageWhiteNoise(Image *out, int width, int height, float factor);
// Generate image: perlin noise
void mGenImagePerlinNoise(Image *out, int width, int height, int offsetX, int offsetY, float scale);
// Generate image: cellular algorithm, bigger tileSize means bigger cells
void mGenImageCellular(Image *out, int width, int height, int tileSize);
// Generate image: grayscale image from text data
void mGenImageText(Image *out, int width, int height, const char * text);
// Create an image duplicate (useful for transformations)
void mImageCopy(Image *out, Image *image);
// Create an image from another image piece
void mImageFromImage(Image *out, Image *image, Rectangle *rec);
// Create an image from text (default font)
void mImageText(Image *out, const char * text, int fontSize, Color *color);
// Create an image from text (custom sprite font)
void mImageTextEx(Image *out, Font *font, const char * text, float fontSize, float spacing, Color *tint);
// Convert image data to desired format
void mImageFormat(Image * image, int newFormat);
// Convert image to POT (power-of-two)
void mImageToPOT(Image * image, Color *fill);
// Crop an image to a defined rectangle
void mImageCrop(Image * image, Rectangle *crop);
// Crop image depending on alpha value
void mImageAlphaCrop(Image * image, float threshold);
// Clear alpha channel to desired color
void mImageAlphaClear(Image * image, Color *color, float threshold);
// Apply alpha mask to image
void mImageAlphaMask(Image * image, Image *alphaMask);
// Premultiply alpha channel
void mImageAlphaPremultiply(Image * image);
// Apply Gaussian blur using a box blur approximation
void mImageBlurGaussian(Image * image, int blurSize);
// Apply Custom Square image convolution kernel
void mImageKernelConvolution(Image * image, float* kernel, int kernelSize);
// Resize image (Bicubic scaling algorithm)
void mImageResize(Image * image, int newWidth, int newHeight);
// Resize image (Nearest-Neighbor scaling algorithm)
void mImageResizeNN(Image * image, int newWidth, int newHeight);
// Resize canvas and fill with color
void mImageResizeCanvas(Image * image, int newWidth, int newHeight, int offsetX, int offsetY, Color *fill);
// Compute all mipmap levels for a provided image
void mImageMipmaps(Image * image);
// Dither image data to 16bpp or lower (Floyd-Steinberg dithering)
void mImageDither(Image * image, int rBpp, int gBpp, int bBpp, int aBpp);
// Flip image vertically
void mImageFlipVertical(Image * image);
// Flip image horizontally
void mImageFlipHorizontal(Image * image);
// Rotate image by input angle in degrees (-359 to 359)
void mImageRotate(Image * image, int degrees);
// Rotate image clockwise 90deg
void mImageRotateCW(Image * image);
// Rotate image counter-clockwise 90deg
void mImageRotateCCW(Image * image);
// Modify image color: tint
void mImageColorTint(Image * image, Color *color);
// Modify image color: invert
void mImageColorInvert(Image * image);
// Modify image color: grayscale
void mImageColorGrayscale(Image * image);
// Modify image color: contrast (-100 to 100)
void mImageColorContrast(Image * image, float contrast);
// Modify image color: brightness (-255 to 255)
void mImageColorBrightness(Image * image, int brightness);
// Modify image color: replace color
void mImageColorReplace(Image * image, Color *color, Color *replace);
// Load color data from image as a Color array (RGBA - 32bit)
Color * mLoadImageColors(Image *image);
// Load colors palette from image as a Color array (RGBA - 32bit)
Color * mLoadImagePalette(Image *image, int maxPaletteSize, int * colorCount);
// Unload color data loaded with LoadImageColors()
void mUnloadImageColors(Color * colors);
// Unload colors palette loaded with LoadImagePalette()
void mUnloadImagePalette(Color * colors);
// Get image alpha border rectangle
void mGetImageAlphaBorder(Rectangle *out, Image *image, float threshold);
// Get image pixel color at (x, y) position
void mGetImageColor(Color *out, Image *image, int x, int y);
// Clear image background with given color
void mImageClearBackground(Image * dst, Color *color);
// Draw pixel within an image
void mImageDrawPixel(Image * dst, int posX, int posY, Color *color);
// Draw pixel within an image (Vector version)
void mImageDrawPixelV(Image * dst, Vector2 *position, Color *color);
// Draw line within an image
void mImageDrawLine(Image * dst, int startPosX, int startPosY, int endPosX, int endPosY, Color *color);
// Draw line within an image (Vector version)
void mImageDrawLineV(Image * dst, Vector2 *start, Vector2 *end, Color *color);
// Draw a filled circle within an image
void mImageDrawCircle(Image * dst, int centerX, int centerY, int radius, Color *color);
// Draw a filled circle within an image (Vector version)
void mImageDrawCircleV(Image * dst, Vector2 *center, int radius, Color *color);
// Draw circle outline within an image
void mImageDrawCircleLines(Image * dst, int centerX, int centerY, int radius, Color *color);
// Draw circle outline within an image (Vector version)
void mImageDrawCircleLinesV(Image * dst, Vector2 *center, int radius, Color *color);
// Draw rectangle within an image
void mImageDrawRectangle(Image * dst, int posX, int posY, int width, int height, Color *color);
// Draw rectangle within an image (Vector version)
void mImageDrawRectangleV(Image * dst, Vector2 *position, Vector2 *size, Color *color);
// Draw rectangle within an image
void mImageDrawRectangleRec(Image * dst, Rectangle *rec, Color *color);
// Draw rectangle lines within an image
void mImageDrawRectangleLines(Image * dst, Rectangle *rec, int thick, Color *color);
// Draw a source image within a destination image (tint applied to source)
void mImageDraw(Image * dst, Image *src, Rectangle *srcRec, Rectangle *dstRec, Color *tint);
// Draw text (using default font) within an image (destination)
void mImageDrawText(Image * dst, const char * text, int posX, int posY, int fontSize, Color *color);
// Draw text (custom sprite font) within an image (destination)
void mImageDrawTextEx(Image * dst, Font *font, const char * text, Vector2 *position, float fontSize, float spacing, Color *tint);
// Load texture from file into GPU memory (VRAM)
void mLoadTexture(Texture2D *out, const char * fileName);
// Load texture from image data
void mLoadTextureFromImage(Texture2D *out, Image *image);
// Load cubemap from image, multiple image cubemap layouts supported
void mLoadTextureCubemap(Texture2D *out, Image *image, int layout);