static void modewhacker( CGDirectDisplayID dspy )
{
int i;
CFDictionaryRef mode;
CFDictionaryRef originalMode;
boolean_t exactMatch;
CGDisplayErr err;
originalMode = CGDisplayCurrentMode( dspy );
if ( originalMode == NULL )
{
printf( "Display is invalid\n" );
return;
}
for ( i = 0; i < (sizeof myModeList / sizeof myModeList[0]); ++i )
{
printf( "Display 0x%x: Looking for %ld x %ld, %ld Bits Per Pixel\n",
(unsigned int)dspy,
myModeList[i].width,
myModeList[i].height,
myModeList[i].bitsPerPixel );
mode = CGDisplayBestModeForParameters(dspy,
myModeList[i].bitsPerPixel,
myModeList[i].width,
myModeList[i].height,
&exactMatch);
if ( exactMatch )
printf( "Found an exact match, switching modes:\n" );
else
printf( "Found a mode, switching modes:\n" );
printDesc( mode );
sleep( 1 ); // Short pause, then switch
err = CGDisplaySwitchToMode(dspy, mode);
if ( err != CGDisplayNoErr )
{
printf( "Oops! Mode switch failed?!?? (%d)\n", err );
break;
}
printf( "Pausing for 5 seconds...\n" );
sleep( 5 );
}
err = CGDisplaySwitchToMode(dspy, originalMode);
if ( err != CGDisplayNoErr )
printf( "Oops! Mode restore failed?!?? (%d)\n", err );
}
bool wxDisplayImplMacOSX::ChangeMode( const wxVideoMode& mode )
{
#ifndef __WXOSX_IPHONE__
if (mode == wxDefaultVideoMode)
{
CGRestorePermanentDisplayConfiguration();
return true;
}
#endif
boolean_t bExactMatch;
CFDictionaryRef theCGMode = CGDisplayBestModeForParametersAndRefreshRate(
m_id,
(size_t)mode.GetDepth(),
(size_t)mode.GetWidth(),
(size_t)mode.GetHeight(),
(double)mode.GetRefresh(),
&bExactMatch );
bool bOK = bExactMatch;
if (bOK)
bOK = CGDisplaySwitchToMode( m_id, theCGMode ) == CGDisplayNoErr;
return bOK;
}
static Bool
QuartzRandRSetCGMode(CGDirectDisplayID screenId,
QuartzModeInfoPtr pMode)
{
CFDictionaryRef modeRef = (CFDictionaryRef)pMode->ref;
return (CGDisplaySwitchToMode(screenId, modeRef) == kCGErrorSuccess);
}
static void RLXAPI Shutdown(void)
{
if (!g_pCGLC)
return;
CGDisplaySwitchToMode(g_cgDisplayID, g_cgPrevDisplayMode);
CGReleaseAllDisplays();
ShowMenuBar();
}
static int RLXAPI SetDisplayMode(GXDISPLAYMODEHANDLE mode)
{
if ((g_pRLX->Video.Config & RLXVIDEO_Windowed)==0)
{
if (!g_cgOldDisplayModeRestore)
{
CGDisplayCapture(g_cgDisplayID);
}
CGDisplaySwitchToMode (g_cgDisplayID, DictRefToModeHandle(mode));
g_cgOldDisplayModeRestore = 1;
}
return 0;
}
static void RLXAPI Shutdown(void)
{
if (!g_pAGLC)
return;
if (g_cgOldDisplayModeRestore)
{
CGDisplaySwitchToMode(g_cgDisplayID, g_cgPrevDisplayMode);
CGReleaseAllDisplays();
g_cgOldDisplayModeRestore = 0;
ShowMenuBar();
}
}
void OpenGLApp::exitAPI(){
delete renderer;
aglSetCurrentContext(NULL);
aglSetDrawable(glContext, NULL);
aglDestroyContext(glContext);
ReleaseWindow(window);
if (fullscreen){
CGReleaseAllDisplays();
CGDisplaySwitchToMode(kCGDirectMainDisplay, initialMode);
}
}
bool nglVideoMode::SetMode (nglVideoMode* pVideoMode, bool Lock)
{
#ifdef __NGL_MACHO__
bool done = false;
boolean_t exactMatch;
CFDictionaryRef mode = CGDisplayBestModeForParametersAndRefreshRate((CGDirectDisplayID)pVideoMode->mDisplay, pVideoMode->mBPP, pVideoMode->mWidth, pVideoMode->mHeight, pVideoMode->mRate, &exactMatch);
CGDisplaySwitchToMode( (CGDirectDisplayID)pVideoMode->mDisplay, mode);
// NGL_DEBUG( NGL_LOG("vidmode", NGL_LOG_INFO, _T("switching to %s: %s"), Dump().GetChars(), done ? _T("ok"):_T("failed")); )
return done;
#else
return false;
#endif
}
bool wxDisplayImplMacOSX::ChangeMode( const wxVideoMode& mode )
{
// Changing to default mode (wxDefaultVideoMode) doesn't
// work because we don't have access to the system's 'scrn'
// resource which holds the user's mode which the system
// will return to after this app is done
boolean_t bExactMatch;
CFDictionaryRef theCGMode = CGDisplayBestModeForParametersAndRefreshRate(
m_id,
(size_t)mode.GetDepth(),
(size_t)mode.GetWidth(),
(size_t)mode.GetHeight(),
(double)mode.GetRefresh(),
&bExactMatch );
bool bOK = bExactMatch;
if (bOK)
bOK = CGDisplaySwitchToMode( m_id, theCGMode ) == CGDisplayNoErr;
return bOK;
}
void QuartzToggler::setFullMode(const bool enable) {
CGDirectDisplayID display = activeDspys[widgetScreen];
CFDictionaryRef currentMode = CGDisplayCurrentMode(display);
CFDictionaryRef mode = currentMode;
if (enable) {
int bpp = 0;
CFNumberGetValue(static_cast<CFNumberRef>(CFDictionaryGetValue(currentMode, kCGDisplayBitsPerPixel)), kCFNumberIntType, &bpp);
mode = CGDisplayBestModeForParametersAndRefreshRate(
display,
bpp,
infoVector[widgetScreen][fullResIndex[widgetScreen]].w,
infoVector[widgetScreen][fullResIndex[widgetScreen]].h,
infoVector[widgetScreen][fullResIndex[widgetScreen]].rates[fullRateIndex[widgetScreen]] / 10.0,
NULL
);
if (!isFull)
originalMode = currentMode;
} else if (isFull)
mode = originalMode;
if (mode != currentMode) {
CGDisplaySwitchToMode(display, mode);
double oldRate = 0.0;
double newRate = 0.0;
CFNumberGetValue(static_cast<CFNumberRef>(CFDictionaryGetValue(currentMode, kCGDisplayRefreshRate)), kCFNumberDoubleType, &oldRate);
CFNumberGetValue(static_cast<CFNumberRef>(CFDictionaryGetValue(mode, kCGDisplayRefreshRate)), kCFNumberDoubleType, &newRate);
if (static_cast<int>(oldRate * 10.0 + 0.5) != static_cast<int>(newRate * 10.0 + 0.5))
emit rateChange(static_cast<int>(newRate * 10.0 + 0.5));
}
isFull = enable;
}
void changeResolution(int x, int y) {
CGDirectDisplayID main = CGMainDisplayID();
CFDictionaryRef mode = CGDisplayBestModeForParameters(main, CGDisplayBitsPerPixel(main), x, y, NULL);
CGDisplaySwitchToMode(main, mode);
}
bool OpenGLApp::initAPI(){
initialMode = CGDisplayCurrentMode(kCGDirectMainDisplay);
dmodes = CGDisplayAvailableModes(kCGDirectMainDisplay);
int count = CFArrayGetCount(dmodes);
Array <DispRes> modes;
int foundMode = -1;
for (int i = 0; i < count; i++){
CFDictionaryRef mode = (CFDictionaryRef) CFArrayGetValueAtIndex(dmodes, i);
long bitsPerPixel = GetDictionaryLong(mode, kCGDisplayBitsPerPixel);
Boolean safeForHardware = GetDictionaryBoolean(mode, kCGDisplayModeIsSafeForHardware);
Boolean stretched = GetDictionaryBoolean(mode, kCGDisplayModeIsStretched);
if (bitsPerPixel < colorBits || !safeForHardware || stretched) continue;
long width = GetDictionaryLong(mode, kCGDisplayWidth);
long height = GetDictionaryLong(mode, kCGDisplayHeight);
long refreshRate = GetDictionaryLong(mode, kCGDisplayRefreshRate);
// printf("Mode: %dx%dx%d @ %d\n", width, height, bitsPerPixel, refreshRate);
if (width >= 640 && height >= 480){
modes.add(newRes(width, height, i));
if (width == fullscreenWidth && height == fullscreenHeight){
foundMode = i;
}
}
}
resolution->clear();
modes.sort(dComp);
char str[64];
for (uint i = 0; i < modes.getCount(); i++){
sprintf(str, "%dx%d", modes[i].w, modes[i].h);
int index = resolution->addItemUnique(str);
if (modes[i].index == foundMode) resolution->selectItem(index);
}
if (fullscreen){
if (foundMode < 0 || CGDisplaySwitchToMode(kCGDirectMainDisplay, (CFDictionaryRef) CFArrayGetValueAtIndex(dmodes, foundMode)) != kCGErrorSuccess){
sprintf(str, "Couldn't set fullscreen to %dx%d.", fullscreenWidth, fullscreenHeight);
ErrorMsg(str);
fullscreen = false;
}
}
Rect rect;
if (fullscreen){
rect.left = 0;
rect.top = 0;
} else {
long w = GetDictionaryLong(initialMode, kCGDisplayWidth);
long h = GetDictionaryLong(initialMode, kCGDisplayHeight);
rect.left = (w - width) / 2;
rect.top = (h - height) / 2;
}
rect.right = rect.left + width;
rect.bottom = rect.top + height;
WindowAttributes attributes = fullscreen? (kWindowNoTitleBarAttribute | kWindowNoShadowAttribute) : (kWindowStandardDocumentAttributes | kWindowStandardHandlerAttribute);
OSStatus error = CreateNewWindow(kDocumentWindowClass, attributes, &rect, &window);
if (error != noErr || window == NULL){
ErrorMsg("Couldn't create window");
return false;
}
GDHandle screen = GetGWorldDevice(GetWindowPort(window));
if (screen == NULL){
ErrorMsg("Couldn't get device");
ReleaseWindow(window);
return false;
}
AGLPixelFormat pixelFormat;
while (true){
GLint attributes[] = {
fullscreen? AGL_FULLSCREEN : AGL_WINDOW,
AGL_RGBA,
AGL_DOUBLEBUFFER,
AGL_RED_SIZE, 8,
AGL_GREEN_SIZE, 8,
AGL_BLUE_SIZE, 8,
AGL_ALPHA_SIZE, (colorBits > 24)? 8 : 0,
AGL_DEPTH_SIZE, depthBits,
AGL_STENCIL_SIZE, stencilBits,
AGL_SAMPLE_BUFFERS_ARB, (antiAliasSamples > 0),
AGL_SAMPLES_ARB, antiAliasSamples,
AGL_NONE
};
pixelFormat = aglChoosePixelFormat(&screen, 1, attributes);
if (pixelFormat != NULL) break;
antiAliasSamples -= 2;
if (antiAliasSamples < 0){
ErrorMsg("No suitable pixel format");
ReleaseWindow(window);
return false;
}
}
glContext = aglCreateContext(pixelFormat, NULL);
aglDestroyPixelFormat(pixelFormat);
if (glContext == NULL){
ErrorMsg("Couldn't create context");
ReleaseWindow(window);
return false;
}
if (fullscreen){
CGCaptureAllDisplays();
aglSetFullScreen(glContext, 0, 0, 0, 0);
} else {
if (!aglSetDrawable(glContext, GetWindowPort(window))){
ErrorMsg("Couldn't set drawable");
aglDestroyContext(glContext);
ReleaseWindow(window);
return false;
}
}
if (!aglSetCurrentContext(glContext)){
ErrorMsg("Couldn't make context current");
aglDestroyContext(glContext);
ReleaseWindow(window);
return false;
}
setWindowTitle(getTitle());
ShowWindow(window);
initExtensions();
if (antiAliasSamples > 0){
glEnable(GL_MULTISAMPLE_ARB);
}
if (fullscreen) captureMouse(!configDialog->isVisible());
renderer = new OpenGLRenderer(glContext);
renderer->setViewport(width, height);
antiAlias->selectItem(antiAliasSamples / 2);
linearClamp = renderer->addSamplerState(LINEAR, CLAMP, CLAMP, CLAMP);
defaultFont = renderer->addFont("../Textures/Fonts/Future.dds", "../Textures/Fonts/Future.font", linearClamp);
blendSrcAlpha = renderer->addBlendState(SRC_ALPHA, ONE_MINUS_SRC_ALPHA);
noDepthTest = renderer->addDepthState(false, false);
noDepthWrite = renderer->addDepthState(true, false);
cullNone = renderer->addRasterizerState(CULL_NONE);
cullBack = renderer->addRasterizerState(CULL_BACK);
cullFront = renderer->addRasterizerState(CULL_FRONT);
return true;
}
bool macosxSetScreenResolution(QSize resolution, QPoint screenPoint)
{
CGDirectDisplayID display = displayAtPoint(screenPoint);
if (display == kCGNullDirectDisplay)
{
return false;
}
#if __MAC_OS_X_VERSION_MAX_ALLOWED >= 1060
if (CGDisplayCopyAllDisplayModes != NULL)
{
bool ok = false;
CGDisplayModeRef currentMainDisplayMode = CGDisplayCopyDisplayMode(display);
CFStringRef currentPixelEncoding = CGDisplayModeCopyPixelEncoding(currentMainDisplayMode);
CFArrayRef displayModes = CGDisplayCopyAllDisplayModes(display, NULL);
for (CFIndex i = 0, c = CFArrayGetCount(displayModes); i < c; i++)
{
bool isEqual = false;
CGDisplayModeRef mode = (CGDisplayModeRef)CFArrayGetValueAtIndex(displayModes, i);
CFStringRef pixelEncoding = CGDisplayModeCopyPixelEncoding(mode);
if (CFStringCompare(pixelEncoding, currentPixelEncoding, 0) == kCFCompareEqualTo
&& CGDisplayModeGetWidth(mode) == (size_t)resolution.width()
&& CGDisplayModeGetHeight(mode) == (size_t)resolution.height())
{
isEqual = true;
}
CFRelease(pixelEncoding);
if (isEqual)
{
CGDisplaySetDisplayMode(display, mode, NULL);
ok = true;
break;
}
}
CFRelease(currentPixelEncoding);
CFRelease(displayModes);
return ok;
}
else
#endif
{
CFDictionaryRef currentMainDisplayMode = CGDisplayCurrentMode(display);
int bpp;
dictget(currentMainDisplayMode, Int, kCGDisplayBitsPerPixel, &bpp);
boolean_t exactMatch = false;
CFDictionaryRef bestMode = CGDisplayBestModeForParameters(display, bpp, resolution.width(), resolution.height(), &exactMatch);
if (bestMode != NULL)
{
if (!exactMatch)
{
qWarning("No optimal display mode for requested parameters.");
}
CGDisplaySwitchToMode(display, bestMode);
return true;
}
else
{
qWarning("Bad resolution change: Invalid display.");
return false;
}
}
}
qboolean VID_InitMode(viddef_mode_t *mode)
{
const EventTypeSpec winEvents[] =
{
{ kEventClassWindow, kEventWindowClosed },
{ kEventClassWindow, kEventWindowCollapsing },
{ kEventClassWindow, kEventWindowExpanded },
};
OSStatus carbonError;
Rect windowBounds;
CFStringRef windowTitle;
AGLPixelFormat pixelFormat;
GLint attributes [32];
GLenum error;
if (!GL_OpenLibrary())
{
Con_Printf("Unable to load GL driver\n");
return false;
}
if ((qaglChoosePixelFormat = (AGLPixelFormat (*) (const AGLDevice *gdevs, GLint ndev, const GLint *attribList))GL_GetProcAddress("aglChoosePixelFormat")) == NULL
|| (qaglCreateContext = (AGLContext (*) (AGLPixelFormat pix, AGLContext share))GL_GetProcAddress("aglCreateContext")) == NULL
|| (qaglDestroyContext = (GLboolean (*) (AGLContext ctx))GL_GetProcAddress("aglDestroyContext")) == NULL
|| (qaglDestroyPixelFormat = (void (*) (AGLPixelFormat pix))GL_GetProcAddress("aglDestroyPixelFormat")) == NULL
|| (qaglErrorString = (const GLubyte* (*) (GLenum code))GL_GetProcAddress("aglErrorString")) == NULL
|| (qaglGetError = (GLenum (*) (void))GL_GetProcAddress("aglGetError")) == NULL
|| (qaglSetCurrentContext = (GLboolean (*) (AGLContext ctx))GL_GetProcAddress("aglSetCurrentContext")) == NULL
|| (qaglSetDrawable = (GLboolean (*) (AGLContext ctx, AGLDrawable draw))GL_GetProcAddress("aglSetDrawable")) == NULL
|| (qaglSetFullScreen = (GLboolean (*) (AGLContext ctx, GLsizei width, GLsizei height, GLsizei freq, GLint device))GL_GetProcAddress("aglSetFullScreen")) == NULL
|| (qaglSetInteger = (GLboolean (*) (AGLContext ctx, GLenum pname, const GLint *params))GL_GetProcAddress("aglSetInteger")) == NULL
|| (qaglSwapBuffers = (void (*) (AGLContext ctx))GL_GetProcAddress("aglSwapBuffers")) == NULL
)
{
Con_Printf("AGL functions not found\n");
ReleaseWindow(window);
return false;
}
qCGLEnable = (CGLError (*) (CGLContextObj ctx, CGLContextEnable pname)) CGL_GetProcAddress("CGLEnable");
qCGLDisable = (CGLError (*) (CGLContextObj ctx, CGLContextEnable pname)) CGL_GetProcAddress("CGLDisable");
qCGLGetCurrentContext = (CGLContextObj (*) (void)) CGL_GetProcAddress("CGLGetCurrentContext");
if(!qCGLEnable || !qCGLDisable || !qCGLGetCurrentContext)
Con_Printf("CGL functions not found; disabling multithreaded OpenGL\n");
// Ignore the events from the previous window
AsyncEvent_Quitting = false;
AsyncEvent_Collapsed = false;
// Create the window, a bit towards the center of the screen
windowBounds.left = 100;
windowBounds.top = 100;
windowBounds.right = mode->width + 100;
windowBounds.bottom = mode->height + 100;
carbonError = CreateNewWindow(kDocumentWindowClass, kWindowStandardFloatingAttributes | kWindowStandardHandlerAttribute, &windowBounds, &window);
if (carbonError != noErr || window == NULL)
{
Con_Printf("Unable to create window (error %u)\n", (unsigned)carbonError);
return false;
}
// Set the window title
windowTitle = CFSTR("DarkPlaces AGL");
SetWindowTitleWithCFString(window, windowTitle);
// Install the callback function for the window events we can't get
// through ReceiveNextEvent (i.e. close, collapse, and expand)
InstallWindowEventHandler (window, NewEventHandlerUPP (MainWindowEventHandler),
GetEventTypeCount(winEvents), winEvents, window, NULL);
// Create the desired attribute list
VID_BuildAGLAttrib(attributes, mode->bitsperpixel == 32, mode->fullscreen, mode->stereobuffer, mode->samples);
if (!mode->fullscreen)
{
// Output to Window
pixelFormat = qaglChoosePixelFormat(NULL, 0, attributes);
error = qaglGetError();
if (error != AGL_NO_ERROR)
{
Con_Printf("qaglChoosePixelFormat FAILED: %s\n",
(char *)qaglErrorString(error));
ReleaseWindow(window);
return false;
}
}
else // Output is fullScreen
{
CGDirectDisplayID mainDisplay;
CFDictionaryRef refDisplayMode;
GDHandle gdhDisplay;
// Get the mainDisplay and set resolution to current
mainDisplay = CGMainDisplayID();
CGDisplayCapture(mainDisplay);
// TOCHECK: not sure whether or not it's necessary to change the resolution
// "by hand", or if aglSetFullscreen does the job anyway
refDisplayMode = CGDisplayBestModeForParametersAndRefreshRateWithProperty(mainDisplay, mode->bitsperpixel, mode->width, mode->height, mode->refreshrate, kCGDisplayModeIsSafeForHardware, NULL);
CGDisplaySwitchToMode(mainDisplay, refDisplayMode);
DMGetGDeviceByDisplayID((DisplayIDType)mainDisplay, &gdhDisplay, false);
// Set pixel format with built attribs
// Note: specifying a device is *required* for AGL_FullScreen
pixelFormat = qaglChoosePixelFormat(&gdhDisplay, 1, attributes);
error = qaglGetError();
if (error != AGL_NO_ERROR)
{
Con_Printf("qaglChoosePixelFormat FAILED: %s\n",
(char *)qaglErrorString(error));
ReleaseWindow(window);
return false;
}
}
// Create a context using the pform
context = qaglCreateContext(pixelFormat, NULL);
error = qaglGetError();
if (error != AGL_NO_ERROR)
{
Con_Printf("qaglCreateContext FAILED: %s\n",
(char *)qaglErrorString(error));
}
// Make the context the current one ('enable' it)
qaglSetCurrentContext(context);
error = qaglGetError();
if (error != AGL_NO_ERROR)
{
Con_Printf("qaglSetCurrentContext FAILED: %s\n",
(char *)qaglErrorString(error));
ReleaseWindow(window);
return false;
}
// Discard pform
qaglDestroyPixelFormat(pixelFormat);
// Attempt fullscreen if requested
if (mode->fullscreen)
{
qaglSetFullScreen (context, mode->width, mode->height, mode->refreshrate, 0);
error = qaglGetError();
if (error != AGL_NO_ERROR)
{
Con_Printf("qaglSetFullScreen FAILED: %s\n",
(char *)qaglErrorString(error));
return false;
}
}
else
{
// Set Window as Drawable
qaglSetDrawable(context, GetWindowPort(window));
error = qaglGetError();
if (error != AGL_NO_ERROR)
{
Con_Printf("qaglSetDrawable FAILED: %s\n",
(char *)qaglErrorString(error));
ReleaseWindow(window);
return false;
}
}
if ((qglGetString = (const GLubyte* (GLAPIENTRY *)(GLenum name))GL_GetProcAddress("glGetString")) == NULL)
Sys_Error("glGetString not found in %s", gl_driver);
gl_platformextensions = "";
gl_platform = "AGL";
multithreadedgl = false;
vid_isfullscreen = mode->fullscreen;
vid_usingmouse = false;
vid_usinghidecursor = false;
vid_hidden = false;
vid_activewindow = true;
sound_active = true;
GL_Init();
SelectWindow(window);
ShowWindow(window);
return true;
}
int _glfwPlatformOpenWindow( int width, int height,
const _GLFWwndconfig *wndconfig,
const _GLFWfbconfig *fbconfig )
{
OSStatus error;
unsigned int windowAttributes;
ProcessSerialNumber psn;
// TODO: Break up this function!
_glfwWin.windowUPP = NULL;
_glfwWin.mouseUPP = NULL;
_glfwWin.keyboardUPP = NULL;
_glfwWin.commandUPP = NULL;
_glfwWin.window = NULL;
_glfwWin.aglContext = NULL;
_glfwWin.aglPixelFormat = NULL;
_glfwWin.cglContext = NULL;
_glfwWin.cglPixelFormat = NULL;
_glfwWin.refreshRate = wndconfig->refreshRate;
// Fail if OpenGL 3.0 or above was requested
if( wndconfig->glMajor > 2 )
{
fprintf( stderr, "OpenGL 3.0+ is not yet supported on Mac OS X\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
if( _glfwLibrary.Unbundled )
{
if( GetCurrentProcess( &psn ) != noErr )
{
fprintf( stderr, "Failed to get the process serial number\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
if( TransformProcessType( &psn, kProcessTransformToForegroundApplication ) != noErr )
{
fprintf( stderr, "Failed to become a foreground application\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
if( wndconfig->mode == GLFW_FULLSCREEN )
{
if( SetFrontProcess( &psn ) != noErr )
{
fprintf( stderr, "Failed to become the front process\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
}
}
if( !installEventHandlers() )
{
fprintf( stderr,
"Failed to install Carbon application event handlers\n" );
_glfwPlatformTerminate();
return GL_FALSE;
}
// Windowed or fullscreen; AGL or CGL? Quite the mess...
// AGL appears to be the only choice for attaching OpenGL contexts to
// Carbon windows, but it leaves the user no control over fullscreen
// mode stretching. Solution: AGL for windowed, CGL for fullscreen.
if( wndconfig->mode == GLFW_WINDOW )
{
// create AGL pixel format attribute list
GLint AGLpixelFormatAttributes[256];
int numAGLAttrs = 0;
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_RGBA;
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_DOUBLEBUFFER;
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_CLOSEST_POLICY;
if( fbconfig->stereo )
{
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_STEREO;
}
_setAGLAttribute( AGL_AUX_BUFFERS, fbconfig->auxBuffers);
_setAGLAttribute( AGL_RED_SIZE, fbconfig->redBits );
_setAGLAttribute( AGL_GREEN_SIZE, fbconfig->greenBits );
_setAGLAttribute( AGL_BLUE_SIZE, fbconfig->blueBits );
_setAGLAttribute( AGL_ALPHA_SIZE, fbconfig->alphaBits );
_setAGLAttribute( AGL_DEPTH_SIZE, fbconfig->depthBits );
_setAGLAttribute( AGL_STENCIL_SIZE, fbconfig->stencilBits );
_setAGLAttribute( AGL_ACCUM_RED_SIZE, fbconfig->accumRedBits );
_setAGLAttribute( AGL_ACCUM_GREEN_SIZE, fbconfig->accumGreenBits );
_setAGLAttribute( AGL_ACCUM_BLUE_SIZE, fbconfig->accumBlueBits );
_setAGLAttribute( AGL_ACCUM_ALPHA_SIZE, fbconfig->accumAlphaBits );
if( fbconfig->samples > 1 )
{
_setAGLAttribute( AGL_SAMPLE_BUFFERS_ARB, 1 );
_setAGLAttribute( AGL_SAMPLES_ARB, fbconfig->samples );
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_NO_RECOVERY;
}
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_NONE;
// create pixel format descriptor
AGLDevice mainMonitor = GetMainDevice();
_glfwWin.aglPixelFormat = aglChoosePixelFormat( &mainMonitor,
1,
AGLpixelFormatAttributes );
if( _glfwWin.aglPixelFormat == NULL )
{
fprintf( stderr,
"Failed to choose AGL pixel format: %s\n",
aglErrorString( aglGetError() ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// create AGL context
_glfwWin.aglContext = aglCreateContext( _glfwWin.aglPixelFormat, NULL );
if( _glfwWin.aglContext == NULL )
{
fprintf( stderr,
"Failed to create AGL context: %s\n",
aglErrorString( aglGetError() ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// create window
Rect windowContentBounds;
windowContentBounds.left = 0;
windowContentBounds.top = 0;
windowContentBounds.right = width;
windowContentBounds.bottom = height;
windowAttributes = ( kWindowCloseBoxAttribute |
kWindowCollapseBoxAttribute |
kWindowStandardHandlerAttribute );
if( wndconfig->windowNoResize )
{
windowAttributes |= kWindowLiveResizeAttribute;
}
else
{
windowAttributes |= ( kWindowFullZoomAttribute |
kWindowResizableAttribute );
}
error = CreateNewWindow( kDocumentWindowClass,
windowAttributes,
&windowContentBounds,
&( _glfwWin.window ) );
if( ( error != noErr ) || ( _glfwWin.window == NULL ) )
{
fprintf( stderr, "Failed to create Carbon window\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
_glfwWin.windowUPP = NewEventHandlerUPP( windowEventHandler );
error = InstallWindowEventHandler( _glfwWin.window,
_glfwWin.windowUPP,
GetEventTypeCount( GLFW_WINDOW_EVENT_TYPES ),
GLFW_WINDOW_EVENT_TYPES,
NULL,
NULL );
if( error != noErr )
{
fprintf( stderr, "Failed to install Carbon window event handler\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// Don't care if we fail here
(void)SetWindowTitleWithCFString( _glfwWin.window, CFSTR( "GLFW Window" ) );
(void)RepositionWindow( _glfwWin.window,
NULL,
kWindowCenterOnMainScreen );
if( !aglSetDrawable( _glfwWin.aglContext,
GetWindowPort( _glfwWin.window ) ) )
{
fprintf( stderr,
"Failed to set the AGL context as the Carbon window drawable: %s\n",
aglErrorString( aglGetError() ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// Make OpenGL context current
if( !aglSetCurrentContext( _glfwWin.aglContext ) )
{
fprintf( stderr,
"Failed to make AGL context current: %s\n",
aglErrorString( aglGetError() ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
ShowWindow( _glfwWin.window );
}
else
{
CGDisplayErr cgErr;
CGLError cglErr;
CFDictionaryRef optimalMode;
GLint numCGLvs = 0;
CGLPixelFormatAttribute CGLpixelFormatAttributes[64];
int numCGLAttrs = 0;
// variables for enumerating color depths
GLint rgbColorDepth;
// CGL pixel format attributes
_setCGLAttribute( kCGLPFADisplayMask,
CGDisplayIDToOpenGLDisplayMask( kCGDirectMainDisplay ) );
if( fbconfig->stereo )
{
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAStereo;
}
if( fbconfig->samples > 1 )
{
_setCGLAttribute( kCGLPFASamples, (CGLPixelFormatAttribute)fbconfig->samples );
_setCGLAttribute( kCGLPFASampleBuffers, (CGLPixelFormatAttribute)1 );
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFANoRecovery;
}
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAFullScreen;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFADoubleBuffer;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAAccelerated;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFANoRecovery;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAMinimumPolicy;
_setCGLAttribute( kCGLPFAAccumSize,
(CGLPixelFormatAttribute)( fbconfig->accumRedBits \
+ fbconfig->accumGreenBits \
+ fbconfig->accumBlueBits \
+ fbconfig->accumAlphaBits ) );
_setCGLAttribute( kCGLPFAAlphaSize, (CGLPixelFormatAttribute)fbconfig->alphaBits );
_setCGLAttribute( kCGLPFADepthSize, (CGLPixelFormatAttribute)fbconfig->depthBits );
_setCGLAttribute( kCGLPFAStencilSize, (CGLPixelFormatAttribute)fbconfig->stencilBits );
_setCGLAttribute( kCGLPFAAuxBuffers, (CGLPixelFormatAttribute)fbconfig->auxBuffers );
CGLpixelFormatAttributes[ numCGLAttrs++ ] = (CGLPixelFormatAttribute)NULL;
// create a suitable pixel format with above attributes..
cglErr = CGLChoosePixelFormat( CGLpixelFormatAttributes,
&_glfwWin.cglPixelFormat,
&numCGLvs );
if( cglErr != kCGLNoError )
{
fprintf( stderr,
"Failed to choose CGL pixel format: %s\n",
CGLErrorString( cglErr ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// ..and create a rendering context using that pixel format
cglErr = CGLCreateContext( _glfwWin.cglPixelFormat, NULL, &_glfwWin.cglContext );
if( cglErr != kCGLNoError )
{
fprintf( stderr,
"Failed to create CGL context: %s\n",
CGLErrorString( cglErr ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// enumerate depth of RGB channels - unlike AGL, CGL works with
// a single parameter reflecting the full depth of the frame buffer
(void)CGLDescribePixelFormat( _glfwWin.cglPixelFormat,
0,
kCGLPFAColorSize,
&rgbColorDepth );
// capture the display for our application
cgErr = CGCaptureAllDisplays();
if( cgErr != kCGErrorSuccess )
{
fprintf( stderr,
"Failed to capture Core Graphics displays\n");
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// find closest matching NON-STRETCHED display mode..
optimalMode = CGDisplayBestModeForParametersAndRefreshRateWithProperty(
kCGDirectMainDisplay,
rgbColorDepth,
width,
height,
wndconfig->refreshRate,
NULL,
NULL );
if( optimalMode == NULL )
{
fprintf( stderr,
"Failed to retrieve Core Graphics display mode\n");
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// ..and switch to that mode
cgErr = CGDisplaySwitchToMode( kCGDirectMainDisplay, optimalMode );
if( cgErr != kCGErrorSuccess )
{
fprintf( stderr,
"Failed to switch to Core Graphics display mode\n");
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// switch to our OpenGL context, and bring it up fullscreen
cglErr = CGLSetCurrentContext( _glfwWin.cglContext );
if( cglErr != kCGLNoError )
{
fprintf( stderr,
"Failed to make CGL context current: %s\n",
CGLErrorString( cglErr ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
cglErr = CGLSetFullScreen( _glfwWin.cglContext );
if( cglErr != kCGLNoError )
{
fprintf( stderr,
"Failed to set CGL fullscreen mode: %s\n",
CGLErrorString( cglErr ) );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
}
return GL_TRUE;
}
static int RLXAPI CreateSurface(int numberOfSparePages)
{
CGOpenGLDisplayMask displayMask = CGDisplayIDToOpenGLDisplayMask( g_cgDisplayID ) ;
static CGLPixelFormatAttribute attribs[32];
CGLPixelFormatAttribute *pAttrib = attribs;
CGLPixelFormatObj pixelFormatObj ;
long numPixelFormats = 0;
*pAttrib = kCGLPFAFullScreen; pAttrib++;
*pAttrib = kCGLPFASingleRenderer; pAttrib++;
*pAttrib = kCGLPFADisplayMask; pAttrib++;
*pAttrib = (CGLPixelFormatAttribute)displayMask; pAttrib++;
*pAttrib = kCGLPFADoubleBuffer; pAttrib++;
*pAttrib = kCGLPFAColorSize; pAttrib++;
*pAttrib = (CGLPixelFormatAttribute)gl_bpp; pAttrib++;
if ((g_pRLX->pGX->View.Flags & GX_CAPS_MULTISAMPLING))
{
*pAttrib = kCGLPFASampleBuffers; pAttrib++;
*pAttrib = (CGLPixelFormatAttribute)1; pAttrib++;
*pAttrib = kCGLPFASamples; pAttrib++;
*pAttrib = (CGLPixelFormatAttribute)g_pRLX->pGX->View.Multisampling; pAttrib++;
}
if (SYS_CGLTRACE(CGLChoosePixelFormat( attribs, &pixelFormatObj, &numPixelFormats )))
return -1;
if (!numPixelFormats)
return -2;
DEBUG_PIXEL_FORMAT(pixelFormatObj);
if (SYS_CGLTRACE(CGLCreateContext( pixelFormatObj, NULL, &g_pCGLC )))
return -3;
CGLDestroyPixelFormat( pixelFormatObj ) ;
long swapInterval = !!(g_pRLX->pGX->View.Flags & GX_CAPS_VSYNC);
SYS_CGLTRACE(CGLSetParameter( g_pCGLC, kCGLCPSwapInterval, &swapInterval));
SYS_CGLTRACE(CGLSetCurrentContext( g_pCGLC ));
if (SYS_CGLTRACE(CGLSetFullScreen( g_pCGLC )))
{
CGDisplaySwitchToMode(g_cgDisplayID, g_cgPrevDisplayMode);
CGReleaseAllDisplays();
return -5;
}
HideMenuBar();
// Reset engine
GL_InstallExtensions();
GL_ResetViewport();
g_pRLX->pGX->Surfaces.maxSurface = numberOfSparePages;;
if (g_pRLX->pGX->View.Flags & GX_CAPS_MULTISAMPLING)
{
glEnable(GL_MULTISAMPLE_ARB);
}
return 0;
}
//-------------------------------------------------------------------------------------------------//
void OSXWindow::createCGLFullscreen(unsigned int width, unsigned int height, unsigned int depth, unsigned int fsaa, CGLContextObj sharedContext)
{
// Find the best match to what was requested
boolean_t exactMatch = 0;
int reqWidth, reqHeight, reqDepth;
#if defined(MAC_OS_X_VERSION_10_6) && MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_6
// Get a copy of the current display mode
CGDisplayModeRef displayMode = CGDisplayCopyDisplayMode(kCGDirectMainDisplay);
// Loop through all display modes to determine the closest match.
// CGDisplayBestModeForParameters is deprecated on 10.6 so we will emulate it's behavior
// Try to find a mode with the requested depth and equal or greater dimensions first.
// If no match is found, try to find a mode with greater depth and same or greater dimensions.
// If still no match is found, just use the current mode.
CFArrayRef allModes = CGDisplayCopyAllDisplayModes(kCGDirectMainDisplay, NULL);
for(int i = 0; i < CFArrayGetCount(allModes); i++)
{
CGDisplayModeRef mode = (CGDisplayModeRef)CFArrayGetValueAtIndex(allModes, i);
String modeString = StringConverter::toString(CGDisplayModeGetWidth(mode)) + String(" x ") +
StringConverter::toString(CGDisplayModeGetHeight(mode)) + String(" @ ") +
StringConverter::toString(bitDepthFromDisplayMode(mode)) + "bpp.";
LogManager::getSingleton().logMessage(modeString);
if(bitDepthFromDisplayMode(mode) != depth)
continue;
if((CGDisplayModeGetWidth(mode) >= width) && (CGDisplayModeGetHeight(mode) >= height))
{
displayMode = mode;
exactMatch = 1;
break;
}
}
// No depth match was found
if(!exactMatch)
{
for(int i = 0; i < CFArrayGetCount(allModes); i++)
{
CGDisplayModeRef mode = (CGDisplayModeRef)CFArrayGetValueAtIndex(allModes, i);
if(bitDepthFromDisplayMode(mode) >= depth)
continue;
if((CGDisplayModeGetWidth(mode) >= width) && (CGDisplayModeGetHeight(mode) >= height))
{
displayMode = mode;
exactMatch = 1;
break;
}
}
}
reqWidth = CGDisplayModeGetWidth(displayMode);
reqHeight = CGDisplayModeGetHeight(displayMode);
reqDepth = bitDepthFromDisplayMode(displayMode);
#else
CFDictionaryRef displayMode = CGDisplayBestModeForParameters(kCGDirectMainDisplay, depth, width, height, &exactMatch);
const void *value = NULL;
value = CFDictionaryGetValue(displayMode, kCGDisplayWidth);
CFNumberGetValue((CFNumberRef)value, kCFNumberSInt32Type, &reqWidth);
value = CFDictionaryGetValue(displayMode, kCGDisplayHeight);
CFNumberGetValue((CFNumberRef)value, kCFNumberSInt32Type, &reqHeight);
value = CFDictionaryGetValue(displayMode, kCGDisplayBitsPerPixel);
CFNumberGetValue((CFNumberRef)value, kCFNumberSInt32Type, &reqDepth);
#endif
if(!exactMatch)
{
// TODO: Report the size difference
// That mode is not available, using the closest match
String request = StringConverter::toString(width) + String(" x ") + StringConverter::toString(height) + String(" @ ") +
StringConverter::toString(depth) + "bpp. ";
String received = StringConverter::toString(reqWidth) + String(" x ") +
StringConverter::toString(reqHeight) + String(" @ ") +
StringConverter::toString(reqDepth) + "bpp. ";
LogManager::getSingleton().logMessage(String("RenderSystem Warning: You requested a fullscreen mode of ") + request +
String(" This mode is not available and you will receive the closest match. The best display mode for the parameters requested is: ")
+ received);
}
// Do the fancy display fading
CGDisplayFadeReservationToken reservationToken;
CGAcquireDisplayFadeReservation(kCGMaxDisplayReservationInterval,
&reservationToken);
CGDisplayFade(reservationToken,
0.5,
kCGDisplayBlendNormal,
kCGDisplayBlendSolidColor,
0.0, 0.0, 0.0,
true);
// Grab the main display and save it for later.
// You could render to any display, but picking what display
// to render to could be interesting.
CGDisplayCapture(kCGDirectMainDisplay);
// Switch to the correct resolution
#if defined(MAC_OS_X_VERSION_10_6) && MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_6
CGDisplaySetDisplayMode(kCGDirectMainDisplay, displayMode, NULL);
#else
CGDisplaySwitchToMode(kCGDirectMainDisplay, displayMode);
#endif
// Get a pixel format that best matches what we are looking for
CGLPixelFormatAttribute attribs[] = {
kCGLPFADoubleBuffer,
kCGLPFAAlphaSize, (CGLPixelFormatAttribute)8,
kCGLPFADepthSize, (CGLPixelFormatAttribute)reqDepth,
kCGLPFAStencilSize, (CGLPixelFormatAttribute)8,
kCGLPFASampleBuffers, (CGLPixelFormatAttribute)0,
kCGLPFASamples, (CGLPixelFormatAttribute)0,
kCGLPFAFullScreen,
kCGLPFASingleRenderer,
kCGLPFAAccelerated,
kCGLPFADisplayMask, (CGLPixelFormatAttribute)CGDisplayIDToOpenGLDisplayMask(kCGDirectMainDisplay),
(CGLPixelFormatAttribute)0
};
// Set up FSAA if it was requested
if(fsaa > 1)
{
// turn on kCGLPFASampleBuffers
attribs[8] = (CGLPixelFormatAttribute)1;
// set the samples for kCGLPFASamples
attribs[10] = (CGLPixelFormatAttribute)fsaa;
}
CGLError err;
CGLPixelFormatObj pixelFormatObj;
#if (MAC_OS_X_VERSION_MAX_ALLOWED > MAC_OS_X_VERSION_10_4)
GLint numPixelFormats = 0;
err = CGLChoosePixelFormat(attribs, &pixelFormatObj, &numPixelFormats);
#else
long numPixelFormats = 0;
err = CGLChoosePixelFormat(attribs, &pixelFormatObj, &numPixelFormats);
#endif
if(err != 0)
{
CGReleaseAllDisplays();
OGRE_EXCEPT(Exception::ERR_RENDERINGAPI_ERROR, String("CGL Error: " + String(CGLErrorString(err))), "OSXWindow::createCGLFullscreen");
}
// Create the CGLcontext from our pixel format, share it with the sharedContext passed in
err = CGLCreateContext(pixelFormatObj, sharedContext, &mCGLContext);
if(err != 0)
{
CGReleaseAllDisplays();
OGRE_EXCEPT(Exception::ERR_RENDERINGAPI_ERROR, String("CGL Error: " + String(CGLErrorString(err))), "OSXWindow::createCGLFullscreen");
}
// Once we have the context we can destroy the pixel format
// In order to share contexts you must keep a pointer to the context object around
// Our context class will now manage the life of the pixelFormatObj
//CGLDestroyPixelFormat(pixelFormatObj);
// Set the context to full screen
#if defined(MAC_OS_X_VERSION_10_6) && MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_6
CGLSetFullScreenOnDisplay(mCGLContext, CGDisplayIDToOpenGLDisplayMask(kCGDirectMainDisplay));
#else
CGLSetFullScreen(mCGLContext);
#endif
// Set the context as current
CGLSetCurrentContext(mCGLContext);
// This synchronizes CGL with the vertical retrace
// Apple docs suggest that OpenGL blocks rendering calls when waiting for
// a vertical retrace anyhow.
#if (MAC_OS_X_VERSION_MAX_ALLOWED > MAC_OS_X_VERSION_10_4)
GLint swapInterval = 1;
CGLSetParameter(mCGLContext, kCGLCPSwapInterval, &swapInterval);
#else
long swapInterval = 1;
CGLSetParameter(mCGLContext, kCGLCPSwapInterval, &swapInterval);
#endif
// Give a copy of our context to the rendersystem
mContext = new OSXCGLContext(mCGLContext, pixelFormatObj);
// Let everyone know we are fullscreen now
mIsFullScreen = true;
// Set some other variables. Just in case we got a different value from CGDisplayBestModeForParameters than we requested
mWidth = reqWidth;
mHeight = reqHeight;
mColourDepth = reqDepth;
CGDisplayFade(reservationToken,
2.0,
kCGDisplayBlendSolidColor,
kCGDisplayBlendNormal,
0.0, 0.0, 0.0,
false);
CGReleaseDisplayFadeReservation(reservationToken);
}
int _glfwPlatformOpenWindow( int width,
int height,
int redbits,
int greenbits,
int bluebits,
int alphabits,
int depthbits,
int stencilbits,
int mode,
_GLFWhints* hints )
{
OSStatus error;
ProcessSerialNumber psn;
unsigned int windowAttributes;
// TO DO: Refactor this function!
_glfwWin.WindowFunctions = ( _glfwWin.Fullscreen ?
&_glfwMacFSWindowFunctions :
&_glfwMacDWWindowFunctions );
// Windowed or fullscreen; AGL or CGL? Quite the mess...
// AGL appears to be the only choice for attaching OpenGL contexts to
// Carbon windows, but it leaves the user no control over fullscreen
// mode stretching. Solution: AGL for windowed, CGL for fullscreen.
if( !_glfwWin.Fullscreen )
{
// create AGL pixel format attribute list
GLint AGLpixelFormatAttributes[256];
int numAGLAttrs = 0;
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_RGBA;
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_DOUBLEBUFFER;
if( hints->Stereo )
{
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_STEREO;
}
_setAGLAttribute( AGL_AUX_BUFFERS, hints->AuxBuffers);
_setAGLAttribute( AGL_RED_SIZE, redbits );
_setAGLAttribute( AGL_GREEN_SIZE, greenbits );
_setAGLAttribute( AGL_BLUE_SIZE, bluebits );
_setAGLAttribute( AGL_ALPHA_SIZE, alphabits );
_setAGLAttribute( AGL_DEPTH_SIZE, depthbits );
_setAGLAttribute( AGL_STENCIL_SIZE, stencilbits );
_setAGLAttribute( AGL_ACCUM_RED_SIZE, hints->AccumRedBits );
_setAGLAttribute( AGL_ACCUM_GREEN_SIZE, hints->AccumGreenBits );
_setAGLAttribute( AGL_ACCUM_BLUE_SIZE, hints->AccumBlueBits );
_setAGLAttribute( AGL_ACCUM_ALPHA_SIZE, hints->AccumAlphaBits );
if( hints->Samples > 1 )
{
_setAGLAttribute( AGL_SAMPLE_BUFFERS_ARB, 1 );
_setAGLAttribute( AGL_SAMPLES_ARB, hints->Samples );
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_NO_RECOVERY;
}
AGLpixelFormatAttributes[numAGLAttrs++] = AGL_NONE;
// create pixel format descriptor
AGLDevice mainMonitor = GetMainDevice();
AGLPixelFormat pixelFormat = aglChoosePixelFormat( &mainMonitor,
1,
AGLpixelFormatAttributes );
if( pixelFormat == NULL )
{
fprintf( stderr, "glfwOpenWindow failing because it can't create a pixel format\n" );
return GL_FALSE;
}
// store pixel format's values for _glfwPlatformGetWindowParam's use
_getAGLAttribute( AGL_ACCELERATED, _glfwWin.Accelerated );
_getAGLAttribute( AGL_RED_SIZE, _glfwWin.RedBits );
_getAGLAttribute( AGL_GREEN_SIZE, _glfwWin.GreenBits );
_getAGLAttribute( AGL_BLUE_SIZE, _glfwWin.BlueBits );
_getAGLAttribute( AGL_ALPHA_SIZE, _glfwWin.AlphaBits );
_getAGLAttribute( AGL_DEPTH_SIZE, _glfwWin.DepthBits );
_getAGLAttribute( AGL_STENCIL_SIZE, _glfwWin.StencilBits );
_getAGLAttribute( AGL_ACCUM_RED_SIZE, _glfwWin.AccumRedBits );
_getAGLAttribute( AGL_ACCUM_GREEN_SIZE, _glfwWin.AccumGreenBits );
_getAGLAttribute( AGL_ACCUM_BLUE_SIZE, _glfwWin.AccumBlueBits );
_getAGLAttribute( AGL_ACCUM_ALPHA_SIZE, _glfwWin.AccumAlphaBits );
_getAGLAttribute( AGL_AUX_BUFFERS, _glfwWin.AuxBuffers );
_getAGLAttribute( AGL_STEREO, _glfwWin.Stereo );
_getAGLAttribute( AGL_SAMPLES_ARB, _glfwWin.Samples );
_glfwWin.RefreshRate = hints->RefreshRate;
// create AGL context
_glfwWin.AGLContext = aglCreateContext( pixelFormat, NULL );
aglDestroyPixelFormat( pixelFormat );
if( _glfwWin.AGLContext == NULL )
{
fprintf( stderr, "glfwOpenWindow failing because it can't create an OpenGL context\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
if (_glfwLibrary.Unbundled)
{
if( GetCurrentProcess( &psn ) != noErr )
{
fprintf( stderr, "glfwOpenWindow failing because it can't get its PSN\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
if( TransformProcessType( &psn, kProcessTransformToForegroundApplication ) != noErr )
{
fprintf( stderr, "glfwOpenWindow failing because it can't become a foreground application\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
/* Keith Bauer 2007-07-12 - I don't believe this is desirable
if( SetFrontProcess( &psn ) != noErr )
{
fprintf( stderr, "glfwOpenWindow failing because it can't become the front process\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
*/
}
// create window
Rect windowContentBounds;
windowContentBounds.left = 0;
windowContentBounds.top = 0;
windowContentBounds.right = width;
windowContentBounds.bottom = height;
windowAttributes = ( kWindowCloseBoxAttribute \
| kWindowCollapseBoxAttribute \
| kWindowStandardHandlerAttribute );
if( hints->WindowNoResize )
{
windowAttributes |= kWindowLiveResizeAttribute;
}
else
{
windowAttributes |= ( kWindowFullZoomAttribute | kWindowResizableAttribute );
}
error = CreateNewWindow( kDocumentWindowClass,
windowAttributes,
&windowContentBounds,
&( _glfwWin.MacWindow ) );
if( ( error != noErr ) || ( _glfwWin.MacWindow == NULL ) )
{
fprintf( stderr, "glfwOpenWindow failing because it can't create a window\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
_glfwWin.WindowUPP = NewEventHandlerUPP( _glfwWindowEventHandler );
error = InstallWindowEventHandler( _glfwWin.MacWindow,
_glfwWin.WindowUPP,
GetEventTypeCount( GLFW_WINDOW_EVENT_TYPES ),
GLFW_WINDOW_EVENT_TYPES,
NULL,
NULL );
if( error != noErr )
{
fprintf( stderr, "glfwOpenWindow failing because it can't install window event handlers\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// Don't care if we fail here
(void)SetWindowTitleWithCFString( _glfwWin.MacWindow, CFSTR( "GLFW Window" ) );
(void)RepositionWindow( _glfwWin.MacWindow,
NULL,
kWindowCenterOnMainScreen );
if( !aglSetDrawable( _glfwWin.AGLContext,
GetWindowPort( _glfwWin.MacWindow ) ) )
{
fprintf( stderr, "glfwOpenWindow failing because it can't draw to the window\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// Make OpenGL context current
if( !aglSetCurrentContext( _glfwWin.AGLContext ) )
{
fprintf( stderr, "glfwOpenWindow failing because it can't make the OpenGL context current\n" );
_glfwPlatformCloseWindow();
return GL_FALSE;
}
// show window
ShowWindow( _glfwWin.MacWindow );
return GL_TRUE;
}
else
{
CGDisplayErr cgErr;
CGLError cglErr;
CFDictionaryRef optimalMode;
CGLPixelFormatObj CGLpfObj;
long numCGLvs = 0;
CGLPixelFormatAttribute CGLpixelFormatAttributes[64];
int numCGLAttrs = 0;
// variables for enumerating color depths
GLint rgbColorDepth;
GLint rgbaAccumDepth = 0;
int rgbChannelDepth = 0;
// CGL pixel format attributes
_setCGLAttribute( kCGLPFADisplayMask,
CGDisplayIDToOpenGLDisplayMask( kCGDirectMainDisplay ) );
if( hints->Stereo )
{
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAStereo;
}
if( hints->Samples > 1 )
{
_setCGLAttribute( kCGLPFASamples, (CGLPixelFormatAttribute)hints->Samples );
_setCGLAttribute( kCGLPFASampleBuffers, (CGLPixelFormatAttribute)1 );
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFANoRecovery;
}
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAFullScreen;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFADoubleBuffer;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAAccelerated;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFANoRecovery;
CGLpixelFormatAttributes[ numCGLAttrs++ ] = kCGLPFAMinimumPolicy;
_setCGLAttribute( kCGLPFAAccumSize,
(CGLPixelFormatAttribute)( hints->AccumRedBits \
+ hints->AccumGreenBits \
+ hints->AccumBlueBits \
+ hints->AccumAlphaBits ) );
_setCGLAttribute( kCGLPFAAlphaSize, (CGLPixelFormatAttribute)alphabits );
_setCGLAttribute( kCGLPFADepthSize, (CGLPixelFormatAttribute)depthbits );
_setCGLAttribute( kCGLPFAStencilSize, (CGLPixelFormatAttribute)stencilbits );
_setCGLAttribute( kCGLPFAAuxBuffers, (CGLPixelFormatAttribute)hints->AuxBuffers );
CGLpixelFormatAttributes[ numCGLAttrs++ ] = (CGLPixelFormatAttribute)NULL;
// create a suitable pixel format with above attributes..
cglErr = CGLChoosePixelFormat( CGLpixelFormatAttributes,
&CGLpfObj,
&numCGLvs );
if( cglErr != kCGLNoError )
{
return GL_FALSE;
}
// ..and create a rendering context using that pixel format
cglErr = CGLCreateContext( CGLpfObj, NULL, &_glfwWin.CGLContext );
if( cglErr != kCGLNoError )
{
return GL_FALSE;
}
// enumerate depth of RGB channels - unlike AGL, CGL works with
// a single parameter reflecting the full depth of the frame buffer
(void)CGLDescribePixelFormat( CGLpfObj, 0, kCGLPFAColorSize, &rgbColorDepth );
if( rgbColorDepth == 24 || rgbColorDepth == 32 )
{
rgbChannelDepth = 8;
}
if( rgbColorDepth == 16 )
{
rgbChannelDepth = 5;
}
// get pixel depth of accumulator - I haven't got the slightest idea
// how this number conforms to any other channel depth than 8 bits,
// so this might end up giving completely knackered results...
(void)CGLDescribePixelFormat( CGLpfObj, 0, kCGLPFAAccumSize, &rgbaAccumDepth );
if( rgbaAccumDepth == 32 )
{
rgbaAccumDepth = 8;
}
// store values of pixel format for _glfwPlatformGetWindowParam's use
_getCGLAttribute( kCGLPFAAccelerated, _glfwWin.Accelerated );
_getCGLAttribute( rgbChannelDepth, _glfwWin.RedBits );
_getCGLAttribute( rgbChannelDepth, _glfwWin.GreenBits );
_getCGLAttribute( rgbChannelDepth, _glfwWin.BlueBits );
_getCGLAttribute( kCGLPFAAlphaSize, _glfwWin.AlphaBits );
_getCGLAttribute( kCGLPFADepthSize, _glfwWin.DepthBits );
_getCGLAttribute( kCGLPFAStencilSize, _glfwWin.StencilBits );
_getCGLAttribute( rgbaAccumDepth, _glfwWin.AccumRedBits );
_getCGLAttribute( rgbaAccumDepth, _glfwWin.AccumGreenBits );
_getCGLAttribute( rgbaAccumDepth, _glfwWin.AccumBlueBits );
_getCGLAttribute( rgbaAccumDepth, _glfwWin.AccumAlphaBits );
_getCGLAttribute( kCGLPFAAuxBuffers, _glfwWin.AuxBuffers );
_getCGLAttribute( kCGLPFAStereo, _glfwWin.Stereo );
_glfwWin.RefreshRate = hints->RefreshRate;
// destroy our pixel format
(void)CGLDestroyPixelFormat( CGLpfObj );
// capture the display for our application
cgErr = CGCaptureAllDisplays();
if( cgErr != kCGErrorSuccess )
{
return GL_FALSE;
}
// find closest matching NON-STRETCHED display mode..
optimalMode = CGDisplayBestModeForParametersAndRefreshRateWithProperty( kCGDirectMainDisplay,
rgbColorDepth,
width,
/* Check further to the right -> */ height,
hints->RefreshRate,
NULL,
NULL );
if( optimalMode == NULL )
{
return GL_FALSE;
}
// ..and switch to that mode
cgErr = CGDisplaySwitchToMode( kCGDirectMainDisplay, optimalMode );
if( cgErr != kCGErrorSuccess )
{
return GL_FALSE;
}
// switch to our OpenGL context, and bring it up fullscreen
cglErr = CGLSetCurrentContext( _glfwWin.CGLContext );
if( cglErr != kCGLNoError )
{
return GL_FALSE;
}
cglErr = CGLSetFullScreen( _glfwWin.CGLContext );
if( cglErr != kCGLNoError )
{
return GL_FALSE;
}
return GL_TRUE;
}
}
static AGLContext createContext(WindowRef window) {
AGLPixelFormat pf;
AGLContext ctx;
GDHandle gdh;
CFDictionaryRef refMode;
GLenum error;
CGDirectDisplayID mainDisplay = CGMainDisplayID();
GLint attrs[] = {
AGL_RGBA,
AGL_DOUBLEBUFFER,
AGL_RED_SIZE, 4,
AGL_GREEN_SIZE, 4,
AGL_BLUE_SIZE, 4,
AGL_DEPTH_SIZE, 16,
AGL_NONE
};
GLint fullscreen_attrs[] = {
AGL_FULLSCREEN,
AGL_RGBA,
AGL_DOUBLEBUFFER,
AGL_RED_SIZE, 4,
AGL_GREEN_SIZE, 4,
AGL_BLUE_SIZE, 4,
AGL_DEPTH_SIZE, 16,
AGL_NONE
};
g_Window.double_buffered = true;
if (!g_Window.fs) {
pf = aglChoosePixelFormat(NULL, 0, attrs);
} else {
CGDisplayCapture(mainDisplay);
refMode = CGDisplayBestModeForParameters(mainDisplay, 32,
g_Window.width, g_Window.height, NULL);
CGDisplaySwitchToMode(mainDisplay, refMode);
DMGetGDeviceByDisplayID(mainDisplay, &gdh, false);
pf = aglChoosePixelFormat(&gdh, 1, fullscreen_attrs);
error = aglGetError();
if (error != AGL_NO_ERROR) {
printf("%s\n", aglErrorString(error));
return 0;
}
}
if (!pf) {
printf("Error choosing pixel format\n");
return 0;
}
ctx = aglCreateContext(pf, 0);
if (!ctx) {
printf("%s\n", aglErrorString(aglGetError()));
return 0;
}
aglDestroyPixelFormat(pf);
aglSetCurrentContext(ctx);
if (g_Window.fs) {
aglSetFullScreen(ctx, g_Window.width, g_Window.height, 0, 0);
} else {
aglSetWindowRef(ctx, window);
}
return ctx;
}
