Mercurial > sdl-ios-xcode
view src/video/quartz/SDL_QuartzVideo.m @ 226:bb72c418a1f9
Disabled virtual terminal check for SVGAlib video
author | Sam Lantinga <slouken@libsdl.org> |
---|---|
date | Fri, 02 Nov 2001 22:41:32 +0000 |
parents | ef78524e5f59 |
children | e8157fcb3114 |
line wrap: on
line source
/* SDL - Simple DirectMedia Layer Copyright (C) 1997, 1998, 1999, 2000, 2001 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@devolution.com */ #include "SDL_QuartzVideo.h" /* Some variables to share among files, put in device structure eventually */ static SDL_GrabMode currentGrabMode = SDL_GRAB_OFF; static BOOL inForeground = YES; static char QZ_Error[255]; /* Global error buffer to temporarily store more informative error messages */ /* Include files into one compile unit...break apart eventually */ #include "SDL_QuartzWM.m" #include "SDL_QuartzEvents.m" #include "SDL_QuartzWindow.m" /* Bootstrap binding, enables entry point into the driver */ VideoBootStrap QZ_bootstrap = { "Quartz", "MacOS X CoreGraphics", QZ_Available, QZ_CreateDevice }; /* Bootstrap functions */ static int QZ_Available () { return 1; } static SDL_VideoDevice* QZ_CreateDevice (int device_index) { #pragma unused (device_index) SDL_VideoDevice *device; SDL_PrivateVideoData *hidden; device = (SDL_VideoDevice*) malloc (sizeof (*device) ); hidden = (SDL_PrivateVideoData*) malloc (sizeof (*hidden) ); if (device == NULL || hidden == NULL) SDL_OutOfMemory (); memset (device, 0, sizeof (*device) ); memset (hidden, 0, sizeof (*hidden) ); device->hidden = hidden; device->VideoInit = QZ_VideoInit; device->ListModes = QZ_ListModes; device->SetVideoMode = QZ_SetVideoMode; device->ToggleFullScreen = QZ_ToggleFullScreen; device->SetColors = QZ_SetColors; /* device->UpdateRects = QZ_UpdateRects; this is determined by SetVideoMode() */ device->VideoQuit = QZ_VideoQuit; device->LockHWSurface = QZ_LockHWSurface; device->UnlockHWSurface = QZ_UnlockHWSurface; device->FreeHWSurface = QZ_FreeHWSurface; /* device->FlipHWSurface = QZ_FlipHWSurface */; device->SetGamma = QZ_SetGamma; device->GetGamma = QZ_GetGamma; device->SetGammaRamp = QZ_SetGammaRamp; device->GetGammaRamp = QZ_GetGammaRamp; device->GL_GetProcAddress = QZ_GL_GetProcAddress; device->GL_GetAttribute = QZ_GL_GetAttribute; device->GL_MakeCurrent = QZ_GL_MakeCurrent; device->GL_SwapBuffers = QZ_GL_SwapBuffers; device->GL_LoadLibrary = QZ_GL_LoadLibrary; device->FreeWMCursor = QZ_FreeWMCursor; device->CreateWMCursor = QZ_CreateWMCursor; device->ShowWMCursor = QZ_ShowWMCursor; device->WarpWMCursor = QZ_WarpWMCursor; device->MoveWMCursor = QZ_MoveWMCursor; device->CheckMouseMode = QZ_CheckMouseMode; device->InitOSKeymap = QZ_InitOSKeymap; device->PumpEvents = QZ_PumpEvents; device->SetCaption = QZ_SetCaption; device->SetIcon = QZ_SetIcon; device->IconifyWindow = QZ_IconifyWindow; /*device->GetWMInfo = QZ_GetWMInfo;*/ device->GrabInput = QZ_GrabInput; device->free = QZ_DeleteDevice; return device; } static void QZ_DeleteDevice (SDL_VideoDevice *device) { free (device->hidden); free (device); } static int QZ_VideoInit (_THIS, SDL_PixelFormat *video_format) { /* Initialize the video settings; this data persists between mode switches */ display_id = kCGDirectMainDisplay; save_mode = CGDisplayCurrentMode (display_id); mode_list = CGDisplayAvailableModes (display_id); palette = CGPaletteCreateDefaultColorPalette (); /* Gather some information that is useful to know about the display */ CFNumberGetValue (CFDictionaryGetValue (save_mode, kCGDisplayBitsPerPixel), kCFNumberSInt32Type, &device_bpp); CFNumberGetValue (CFDictionaryGetValue (save_mode, kCGDisplayWidth), kCFNumberSInt32Type, &device_width); CFNumberGetValue (CFDictionaryGetValue (save_mode, kCGDisplayHeight), kCFNumberSInt32Type, &device_height); video_format->BitsPerPixel = device_bpp; return 0; } static SDL_Rect** QZ_ListModes (_THIS, SDL_PixelFormat *format, Uint32 flags) { CFIndex num_modes = CFArrayGetCount (mode_list); CFIndex i; static SDL_Rect **list = NULL; int list_size = 0; /* Any windowed mode is acceptable */ if ( (flags & SDL_FULLSCREEN) == 0 ) return (SDL_Rect**)-1; /* Free memory from previous call, if any */ if ( list != NULL ) { int i; for (i = 0; list[i] != NULL; i++) free (list[i]); free (list); list = NULL; } /* Build list of modes with the requested bpp */ for (i = 0; i < num_modes; i++) { CFDictionaryRef onemode; CFNumberRef number; int bpp; onemode = CFArrayGetValueAtIndex (mode_list, i); number = CFDictionaryGetValue (onemode, kCGDisplayBitsPerPixel); CFNumberGetValue (number, kCFNumberSInt32Type, &bpp); if (bpp == format->BitsPerPixel) { int intvalue; int hasMode; int width, height; number = CFDictionaryGetValue (onemode, kCGDisplayWidth); CFNumberGetValue (number, kCFNumberSInt32Type, &intvalue); width = (Uint16) intvalue; number = CFDictionaryGetValue (onemode, kCGDisplayHeight); CFNumberGetValue (number, kCFNumberSInt32Type, &intvalue); height = (Uint16) intvalue; /* Check if mode is already in the list */ { int i; hasMode = SDL_FALSE; for (i = 0; i < list_size; i++) { if (list[i]->w == width && list[i]->h == height) { hasMode = SDL_TRUE; break; } } } /* Grow the list and add mode to the list */ if ( ! hasMode ) { SDL_Rect *rect; list_size++; if ( list == NULL) list = (SDL_Rect**) malloc (sizeof(*list) * list_size+1); else list = (SDL_Rect**) realloc (list, sizeof(*list) * list_size+1); rect = (SDL_Rect*) malloc (sizeof(**list)); if (list == NULL || rect == NULL) SDL_OutOfMemory (); rect->w = width; rect->h = height; list[list_size-1] = rect; list[list_size] = NULL; } } } /* Sort list largest to smallest (by area) */ { int i, j; for (i = 0; i < list_size; i++) { for (j = 0; j < list_size-1; j++) { int area1, area2; area1 = list[j]->w * list[j]->h; area2 = list[j+1]->w * list[j+1]->h; if (area1 < area2) { SDL_Rect *tmp = list[j]; list[j] = list[j+1]; list[j+1] = tmp; } } } } return list; } static void QZ_UnsetVideoMode (_THIS) { /* Reset values that may change between switches */ this->info.blit_fill = 0; this->FillHWRect = NULL; this->UpdateRects = NULL; /* Restore gamma settings */ CGDisplayRestoreColorSyncSettings (); /* Restore original screen resolution */ if ( mode_flags & SDL_FULLSCREEN ) { if (mode_flags & SDL_OPENGL) CGLSetFullScreen(NULL); CGDisplaySwitchToMode (display_id, save_mode); CGDisplayRelease (display_id); } /* Release window mode data structures */ else { if ( (mode_flags & SDL_OPENGL) == 0 ) { UnlockPortBits ( [ windowView qdPort ] ); [ windowView release ]; } [ qz_window setContentView:nil ]; [ qz_window setDelegate:nil ]; [ qz_window close ]; } /* Set pixels to null (so other code doesn't try to free it) */ if (this->screen != NULL) this->screen->pixels = NULL; /* Release the OpenGL context */ if ( mode_flags & SDL_OPENGL ) QZ_TearDownOpenGL (this); /* Ensure the cursor will be visible and working when we quit */ CGDisplayShowCursor (display_id); CGAssociateMouseAndMouseCursorPosition (1); /* Signal successful teardown */ video_set = SDL_FALSE; } static SDL_Surface* QZ_SetVideoFullScreen (_THIS, SDL_Surface *current, int width, int height, int bpp, Uint32 flags) { int exact_match; /* See if requested mode exists */ mode = CGDisplayBestModeForParameters (display_id, bpp, width, height, &exact_match); /* Require an exact match to the requested mode */ if ( ! exact_match ) { sprintf (QZ_Error, "Failed to find display resolution: %dx%dx%d", width, height, bpp); SDL_SetError (QZ_Error); goto ERR_NO_MATCH; } /* Put up the blanking window (a window above all other windows) */ if ( CGDisplayNoErr != CGDisplayCapture (display_id) ) { SDL_SetError ("Failed capturing display"); goto ERR_NO_CAPTURE; } /* Do the physical switch */ if ( CGDisplayNoErr != CGDisplaySwitchToMode (display_id, mode) ) { SDL_SetError ("Failed switching display resolution"); goto ERR_NO_SWITCH; } /* None of these methods seem to fix the fullscreen artifacts bug(s) */ #if USE_GDHANDLE SetGDevice(GetMainDevice()); current->pitch = (**(** GetMainDevice() ).gdPMap).rowBytes & 0x3FFF; current->pixels = (**(** GetMainDevice() ).gdPMap).baseAddr; #elif USE_CREATEPORT device_port = CreateNewPortForCGDisplayID((Uint32*)display_id); SetPort (device_port); LockPortBits ( device_port ); current->pixels = GetPixBaseAddr ( GetPortPixMap ( device_port ) ); current->pitch = GetPixRowBytes ( GetPortPixMap ( device_port ) ); UnlockPortBits ( device_port ); #else current->pixels = (Uint32*) CGDisplayBaseAddress (display_id); current->pitch = CGDisplayBytesPerRow (display_id); #endif current->flags = 0; current->w = width; current->h = height; current->flags |= SDL_FULLSCREEN; current->flags |= SDL_HWSURFACE; this->UpdateRects = QZ_DirectUpdate; /* Setup some mode-dependant info */ if ( CGSDisplayCanHWFill (display_id) ) { this->info.blit_fill = 1; this->FillHWRect = QZ_FillHWRect; } if ( CGDisplayCanSetPalette (display_id) ) current->flags |= SDL_HWPALETTE; /* Setup OpenGL for a fullscreen context */ if (flags & SDL_OPENGL) { CGLError err; CGLContextObj ctx; if ( ! QZ_SetupOpenGL (this, bpp, flags) ) { return NULL; } ctx = [ gl_context cglContext ]; err = CGLSetFullScreen (ctx); if (err) { sprintf (QZ_Error, "Error setting OpenGL fullscreen: %s", CGLErrorString(err)); SDL_SetError (QZ_Error); goto ERR_NO_GL; } [ gl_context makeCurrentContext]; current->flags |= SDL_OPENGL; } /* If we don't hide menu bar, it will get events and interrupt the program */ HideMenuBar (); /* Save the flags to ensure correct tear-down */ mode_flags = current->flags; return current; /* Since the blanking window covers *all* windows (even force quit) correct recovery is crutial */ ERR_NO_GL: CGDisplaySwitchToMode (display_id, save_mode); ERR_NO_SWITCH: CGDisplayRelease (display_id); ERR_NO_CAPTURE: ERR_NO_MATCH: return NULL; } static SDL_Surface* QZ_SetVideoWindowed (_THIS, SDL_Surface *current, int width, int height, int bpp, Uint32 flags) { unsigned int style; NSRect rect; rect = NSMakeRect (0, 0, width, height); #if 1 // FIXME - the resize button doesn't show? Also need resize events... flags &= ~SDL_RESIZABLE; #endif /* Set the window style based on input flags */ if ( flags & SDL_NOFRAME ) { style = NSBorderlessWindowMask; } else { style = NSTitledWindowMask; style |= (NSMiniaturizableWindowMask | NSClosableWindowMask); if ( flags & SDL_RESIZABLE ) style |= NSResizableWindowMask; } /* Manually create a window, avoids having a nib file resource */ qz_window = [ [ SDL_QuartzWindow alloc ] initWithContentRect:rect styleMask:style backing:NSBackingStoreBuffered defer:NO ]; if (qz_window == nil) { SDL_SetError ("Could not create the Cocoa window"); return NULL; } current->flags = 0; current->w = width; current->h = height; [ qz_window setReleasedWhenClosed:YES ]; QZ_SetCaption(this, this->wm_title, this->wm_icon); [ qz_window setAcceptsMouseMovedEvents:YES ]; [ qz_window setViewsNeedDisplay:NO ]; [ qz_window center ]; [ qz_window setDelegate: [ [ [ SDL_QuartzWindowDelegate alloc ] init ] autorelease ] ]; /* For OpenGL, we set the content view to a NSOpenGLView */ if ( flags & SDL_OPENGL ) { if ( ! QZ_SetupOpenGL (this, bpp, flags) ) { return NULL; } [ gl_context setView: [ qz_window contentView ] ]; [ gl_context makeCurrentContext]; [ qz_window makeKeyAndOrderFront:nil ]; current->flags |= SDL_OPENGL; } /* For 2D, we set the content view to a NSQuickDrawView */ else { windowView = [ [ NSQuickDrawView alloc ] init ]; [ qz_window setContentView:windowView ]; [ qz_window makeKeyAndOrderFront:nil ]; LockPortBits ( [ windowView qdPort ] ); current->pixels = GetPixBaseAddr ( GetPortPixMap ( [ windowView qdPort ] ) ); current->pitch = GetPixRowBytes ( GetPortPixMap ( [ windowView qdPort ] ) ); current->flags |= SDL_SWSURFACE; current->flags |= SDL_PREALLOC; if ( flags & SDL_NOFRAME ) current->flags |= SDL_NOFRAME; if ( flags & SDL_RESIZABLE ) current->flags |= SDL_RESIZABLE; /* Offset 22 pixels down to fill the full content region */ if ( ! (current->flags & SDL_NOFRAME) ) { current->pixels += 22 * current->pitch; } this->UpdateRects = QZ_UpdateRects; } return current; } static SDL_Surface* QZ_SetVideoMode (_THIS, SDL_Surface *current, int width, int height, int bpp, Uint32 flags) { if (video_set == SDL_TRUE) QZ_UnsetVideoMode (this); current->flags = 0; /* Setup full screen video */ if ( flags & SDL_FULLSCREEN ) { current = QZ_SetVideoFullScreen (this, current, width, height, bpp, flags ); if (current == NULL) return NULL; } /* Setup windowed video */ else { /* Force bpp to the device's bpp */ bpp = current->format->BitsPerPixel; current = QZ_SetVideoWindowed (this, current, width, height, bpp, flags); if (current == NULL) return NULL; } /* Setup the new pixel format */ { int amask = 0, rmask = 0, gmask = 0, bmask = 0; switch (bpp) { case 16: /* (1)-5-5-5 RGB */ amask = 0; rmask = 0x7C00; gmask = 0x03E0; bmask = 0x001F; break; case 24: SDL_SetError ("24bpp is not available"); return NULL; case 32: /* (8)-8-8-8 ARGB */ amask = 0x00000000; rmask = 0x00FF0000; gmask = 0x0000FF00; bmask = 0x000000FF; break; } if ( ! SDL_ReallocFormat (current, bpp, rmask, gmask, bmask, amask ) ) { SDL_SetError ("Couldn't reallocate pixel format"); return NULL; } } /* Warp mouse to origin in order to get passive mouse motion events started correctly */ QZ_PrivateWarpCursor (this, current->flags & SDL_FULLSCREEN, height, 0, 0); /* Signal successful completion */ video_set = SDL_TRUE; return current; } static int QZ_ToggleFullScreen (_THIS, int on) { return -1; } static int QZ_SetColors (_THIS, int first_color, int num_colors, SDL_Color *colors) { CGTableCount index; CGDeviceColor color; for (index = first_color; index < first_color+num_colors; index++) { /* Clamp colors between 0.0 and 1.0 */ color.red = colors->r / 255.0; color.blue = colors->b / 255.0; color.green = colors->g / 255.0; colors++; CGPaletteSetColorAtIndex (palette, color, index); } if ( CGDisplayNoErr != CGDisplaySetPalette (display_id, palette) ) return 0; return 1; } static void QZ_DirectUpdate (_THIS, int num_rects, SDL_Rect *rects) { #pragma unused(this,num_rects,rects) } static void QZ_UpdateRects (_THIS, int numRects, SDL_Rect *rects) { if (SDL_VideoSurface->flags & SDL_OPENGLBLIT) { QZ_GL_SwapBuffers (this); } else { int i; RgnHandle dirty = NewRgn (); RgnHandle temp = NewRgn (); SetEmptyRgn (dirty); /* Build the region of dirty rectangles */ for (i = 0; i < numRects; i++) { MacSetRectRgn (temp, rects[i].x, rects[i].y, rects[i].x + rects[i].w, rects[i].y + rects[i].h); MacUnionRgn (dirty, temp, dirty); } /* Flush the dirty region */ QDFlushPortBuffer ( [ windowView qdPort ], dirty ); DisposeRgn (dirty); DisposeRgn (temp); } } static void QZ_VideoQuit (_THIS) { QZ_UnsetVideoMode (this); CGPaletteRelease (palette); } static int QZ_FillHWRect (_THIS, SDL_Surface *dst, SDL_Rect *rect, Uint32 color) { CGSDisplayHWFill (display_id, rect->x, rect->y, rect->w, rect->h, color); return 0; } static int QZ_LockHWSurface(_THIS, SDL_Surface *surface) { return 1; } static void QZ_UnlockHWSurface(_THIS, SDL_Surface *surface) { } static void QZ_FreeHWSurface (_THIS, SDL_Surface *surface) { } /* int QZ_FlipHWSurface (_THIS, SDL_Surface *surface) { return 0; } */ /* Gamma functions */ static int QZ_SetGamma (_THIS, float red, float green, float blue) { const CGGammaValue min = 0.0, max = 1.0; if ( CGDisplayNoErr != CGSetDisplayTransferByFormula (display_id, min, max, red, min, max, green, min, max, blue) ) return -1; return 0; } static int QZ_GetGamma (_THIS, float *red, float *green, float *blue) { CGGammaValue dummy; if ( CGDisplayNoErr != CGGetDisplayTransferByFormula (display_id, &dummy, &dummy, red, &dummy, &dummy, green, &dummy, &dummy, blue) ) return -1; return 0; } static int QZ_SetGammaRamp (_THIS, Uint16 *ramp) { const CGTableCount tableSize = 255; CGGammaValue redTable[tableSize]; CGGammaValue greenTable[tableSize]; CGGammaValue blueTable[tableSize]; int i; /* Extract gamma values into separate tables, convert to floats between 0.0 and 1.0 */ for (i = 0; i < 256; i++) redTable[i % 256] = ramp[i] / 65535.0; for (i=256; i < 512; i++) greenTable[i % 256] = ramp[i] / 65535.0; for (i=512; i < 768; i++) blueTable[i % 256] = ramp[i] / 65535.0; if ( CGDisplayNoErr != CGSetDisplayTransferByTable (display_id, tableSize, redTable, greenTable, blueTable) ) return -1; return 0; } static int QZ_GetGammaRamp (_THIS, Uint16 *ramp) { const CGTableCount tableSize = 255; CGGammaValue redTable[tableSize]; CGGammaValue greenTable[tableSize]; CGGammaValue blueTable[tableSize]; CGTableCount actual; int i; if ( CGDisplayNoErr != CGGetDisplayTransferByTable (display_id, tableSize, redTable, greenTable, blueTable, &actual) || actual != tableSize) return -1; /* Pack tables into one array, with values from 0 to 65535 */ for (i = 0; i < 256; i++) ramp[i] = redTable[i % 256] * 65535.0; for (i=256; i < 512; i++) ramp[i] = greenTable[i % 256] * 65535.0; for (i=512; i < 768; i++) ramp[i] = blueTable[i % 256] * 65535.0; return 0; } /* OpenGL helper functions */ static int QZ_SetupOpenGL (_THIS, int bpp, Uint32 flags) { NSOpenGLPixelFormatAttribute attr[32]; NSOpenGLPixelFormat *fmt; int i = 0; int colorBits = bpp; if ( flags & SDL_FULLSCREEN ) { attr[i++] = NSOpenGLPFAFullScreen; } /* In windowed mode, the OpenGL pixel depth must match device pixel depth */ else if ( colorBits != device_bpp ) { colorBits = device_bpp; } attr[i++] = NSOpenGLPFAColorSize; attr[i++] = colorBits; attr[i++] = NSOpenGLPFADepthSize; attr[i++] = this->gl_config.depth_size; if ( this->gl_config.double_buffer ) { attr[i++] = NSOpenGLPFADoubleBuffer; } if ( this->gl_config.stencil_size != 0 ) { attr[i++] = NSOpenGLPFAStencilSize; attr[i++] = this->gl_config.stencil_size; } attr[i++] = NSOpenGLPFAScreenMask; attr[i++] = CGDisplayIDToOpenGLDisplayMask (display_id); attr[i] = 0; fmt = [ [ NSOpenGLPixelFormat alloc ] initWithAttributes:attr ]; if (fmt == nil) { SDL_SetError ("Failed creating OpenGL pixel format"); return 0; } gl_context = [ [ NSOpenGLContext alloc ] initWithFormat:fmt shareContext:nil]; if (gl_context == nil) { SDL_SetError ("Failed creating OpenGL context"); return 0; } /* Convince SDL that the GL "driver" is loaded */ this->gl_config.driver_loaded = 1; [ fmt release ]; return 1; } static void QZ_TearDownOpenGL (_THIS) { [ NSOpenGLContext clearCurrentContext ]; [ gl_context clearDrawable ]; [ gl_context release ]; } /* SDL OpenGL functions */ static int QZ_GL_LoadLibrary (_THIS, const char *location) { this->gl_config.driver_loaded = 1; return 1; } static void* QZ_GL_GetProcAddress (_THIS, const char *proc) { /* We may want to cache the bundleRef at some point */ CFBundleRef bundle; CFURLRef bundleURL = CFURLCreateWithFileSystemPath (kCFAllocatorDefault, CFSTR("/System/Library/Frameworks/OpenGL.framework"), kCFURLPOSIXPathStyle, true); CFStringRef functionName = CFStringCreateWithCString (kCFAllocatorDefault, proc, kCFStringEncodingASCII); void *function; bundle = CFBundleCreate (kCFAllocatorDefault, bundleURL); assert (bundle != NULL); function = CFBundleGetFunctionPointerForName (bundle, functionName); CFRelease ( bundleURL ); CFRelease ( functionName ); CFRelease ( bundle ); return function; } static int QZ_GL_GetAttribute (_THIS, SDL_GLattr attrib, int* value) { /* CGLContextRef ctx = [ gl_context cglContext ]; CGLContextParameter param; switch (attrib) { case SDL_GL_RED_SIZE: param = CGLContextParameter break; } CGLGetParameter (ctx, param, (long*)value); */ *value = -1; return -1; } static int QZ_GL_MakeCurrent (_THIS) { [ gl_context makeCurrentContext ]; return 0; } static void QZ_GL_SwapBuffers (_THIS) { [ gl_context flushBuffer ]; }