#define GL_ALPHA_TEST 0x0bc0 #include "opengl/opengl.hpp" struct VideoCGL; @interface RubyVideoCGL : NSOpenGLView { @public VideoCGL* video; } -(id) initWith:(VideoCGL*)video pixelFormat:(NSOpenGLPixelFormat*)pixelFormat; -(void) reshape; @end struct VideoCGL : VideoDriver, OpenGL { VideoCGL& self = *this; VideoCGL(Video& super) : VideoDriver(super) {} ~VideoCGL() { terminate(); } auto create() -> bool override { return initialize(); } auto driver() -> string override { return "OpenGL 3.2"; } auto ready() -> bool override { return _ready; } auto hasContext() -> bool override { return true; } auto hasBlocking() -> bool override { return true; } auto hasFlush() -> bool override { return true; } auto hasShader() -> bool override { return true; } auto setContext(uintptr context) -> bool override { return initialize(); } auto setBlocking(bool blocking) -> bool override { if(!view) return true; @autoreleasepool { [[view openGLContext] makeCurrentContext]; int blocking = self.blocking; [[view openGLContext] setValues:&blocking forParameter:NSOpenGLCPSwapInterval]; } return true; } auto setFlush(bool flush) -> bool override { return true; } auto setShader(string shader) -> bool override { OpenGL::setShader(shader); return true; } auto clear() -> void override { @autoreleasepool { [view lockFocus]; OpenGL::clear(); [[view openGLContext] flushBuffer]; [view unlockFocus]; } } auto size(uint& width, uint& height) -> void override { @autoreleasepool { auto area = [view convertRectToBacking:[view bounds]]; width = area.size.width; height = area.size.height; } } auto acquire(uint32_t*& data, uint& pitch, uint width, uint height) -> bool override { OpenGL::size(width, height); return OpenGL::lock(data, pitch); } auto release() -> void override { } auto output(uint width, uint height) -> void override { uint windowWidth, windowHeight; size(windowWidth, windowHeight); @autoreleasepool { if([view lockFocusIfCanDraw]) { OpenGL::absoluteWidth = width; OpenGL::absoluteHeight = height; OpenGL::outputX = 0; OpenGL::outputY = 0; OpenGL::outputWidth = windowWidth; OpenGL::outputHeight = windowHeight; OpenGL::output(); [[view openGLContext] flushBuffer]; if(self.flush) glFinish(); [view unlockFocus]; } } } private: auto initialize() -> bool { terminate(); if(!self.context) return false; @autoreleasepool { NSOpenGLPixelFormatAttribute attributeList[] = { NSOpenGLPFAOpenGLProfile, NSOpenGLProfileVersion3_2Core, NSOpenGLPFAColorSize, 24, NSOpenGLPFAAlphaSize, 8, NSOpenGLPFADoubleBuffer, 0 }; auto context = (NSView*)self.context; auto size = [context frame].size; auto format = [[[NSOpenGLPixelFormat alloc] initWithAttributes:attributeList] autorelease]; auto openGLContext = [[[NSOpenGLContext alloc] initWithFormat:format shareContext:nil] autorelease]; view = [[RubyVideoCGL alloc] initWith:this pixelFormat:format]; [view setOpenGLContext:openGLContext]; [view setFrame:NSMakeRect(0, 0, size.width, size.height)]; [view setAutoresizingMask:NSViewWidthSizable | NSViewHeightSizable]; [view setWantsBestResolutionOpenGLSurface:YES]; [context addSubview:view]; [openGLContext setView:view]; [view lockFocus]; OpenGL::initialize(self.shader); int blocking = self.blocking; [[view openGLContext] setValues:&blocking forParameter:NSOpenGLCPSwapInterval]; [view unlockFocus]; } clear(); return _ready = true; } auto terminate() -> void { _ready = false; OpenGL::terminate(); if(!view) return; @autoreleasepool { [view removeFromSuperview]; [view release]; view = nil; } } RubyVideoCGL* view = nullptr; bool _ready = false; }; @implementation RubyVideoCGL : NSOpenGLView -(id) initWith:(VideoCGL*)videoPointer pixelFormat:(NSOpenGLPixelFormat*)pixelFormat { if(self = [super initWithFrame:NSMakeRect(0, 0, 0, 0) pixelFormat:pixelFormat]) { video = videoPointer; } return self; } -(void) reshape { video->output(0, 0); } @end