/* vo_quartz.c by Nicolas Plourde Copyright (c) Nicolas Plourde - April 2004 YUV support Copyright (C) 2004 Romain Dolbeau MPlayer Mac OSX Quartz video out module. todo: -screen overlay output -fit osd in black bar when available -fix RGB32 -(add sugestion here) */ //SYS #include //OSX #include #include //MPLAYER #include "config.h" #include "fastmemcpy.h" #include "video_out.h" #include "video_out_internal.h" #include "aspect.h" #include "mp_msg.h" #include "m_option.h" #include "mp_fifo.h" #include "mpbswap.h" #include "input/input.h" #include "input/mouse.h" #include "vo_quartz.h" static const vo_info_t info = { "Mac OSX (Quartz)", "quartz", "Nicolas Plourde , Romain Dolbeau ", "" }; const LIBVO_EXTERN(quartz) static uint32_t image_depth; static uint32_t image_format; static uint32_t image_size; static uint32_t image_buffer_size; static char *image_data; static ImageSequence seqId; static CodecType image_qtcodec; static PlanarPixmapInfoYUV420 *P = NULL; static struct { ImageDescriptionHandle desc; Handle extension_colr; Handle extension_fiel; Handle extension_clap; Handle extension_pasp; } yuv_qt_stuff; static MatrixRecord matrix; static int EnterMoviesDone = 0; static int get_image_done = 0; static int vo_quartz_fs; // we are in fullscreen extern float monitor_aspect; extern float movie_aspect; static float old_movie_aspect; static int winLevel = 1; int levelList[] = { kCGDesktopWindowLevelKey, kCGNormalWindowLevelKey, kCGScreenSaverWindowLevelKey }; static int int_pause = 0; static float winAlpha = 1; static int mouseHide = FALSE; static int device_width; static int device_height; static int device_id; static short fs_res_x=0; static short fs_res_y=0; static WindowRef theWindow = NULL; static WindowGroupRef winGroup = NULL; static CGContextRef context; static CGRect bounds; static GDHandle deviceHdl; static CGDataProviderRef dataProviderRef; static CGImageRef image; static Rect imgRect; // size of the original image (unscaled) static Rect dstRect; // size of the displayed image (after scaling) static Rect winRect; // size of the window containg the displayed image (include padding) static Rect oldWinRect; // size of the window containg the displayed image (include padding) when NOT in FS mode static Rect deviceRect; // size of the display device static Rect oldWinBounds; static MenuRef windMenu; static MenuRef movMenu; static MenuRef aspectMenu; enum { kQuitCmd = 1, kHalfScreenCmd = 2, kNormalScreenCmd = 3, kDoubleScreenCmd = 4, kFullScreenCmd = 5, kKeepAspectCmd = 6, kAspectOrgCmd = 7, kAspectFullCmd = 8, kAspectWideCmd = 9, kPanScanCmd = 10 }; #include "osdep/keycodes.h" extern void vo_draw_text(int dxs,int dys,void (*draw_alpha)(int x0,int y0, int w,int h, unsigned char* src, unsigned char *srca, int stride)); //PROTOTYPE///////////////////////////////////////////////////////////////// static OSStatus KeyEventHandler(EventHandlerCallRef nextHandler, EventRef event, void *userData); static OSStatus MouseEventHandler(EventHandlerCallRef nextHandler, EventRef event, void *userData); static OSStatus WindowEventHandler(EventHandlerCallRef nextHandler, EventRef event, void *userData); void window_resized(); void window_ontop(); void window_fullscreen(); void window_panscan(); static inline int convert_key(UInt32 key, UInt32 charcode) { switch(key) { case QZ_IBOOK_ENTER: case QZ_RETURN: return KEY_ENTER; case QZ_ESCAPE: return KEY_ESC; case QZ_BACKSPACE: return KEY_BACKSPACE; case QZ_LALT: return KEY_BACKSPACE; case QZ_LCTRL: return KEY_BACKSPACE; case QZ_LSHIFT: return KEY_BACKSPACE; case QZ_F1: return KEY_F+1; case QZ_F2: return KEY_F+2; case QZ_F3: return KEY_F+3; case QZ_F4: return KEY_F+4; case QZ_F5: return KEY_F+5; case QZ_F6: return KEY_F+6; case QZ_F7: return KEY_F+7; case QZ_F8: return KEY_F+8; case QZ_F9: return KEY_F+9; case QZ_F10: return KEY_F+10; case QZ_F11: return KEY_F+11; case QZ_F12: return KEY_F+12; case QZ_INSERT: return KEY_INSERT; case QZ_DELETE: return KEY_DELETE; case QZ_HOME: return KEY_HOME; case QZ_END: return KEY_END; case QZ_KP_PLUS: return '+'; case QZ_KP_MINUS: return '-'; case QZ_TAB: return KEY_TAB; case QZ_PAGEUP: return KEY_PAGE_UP; case QZ_PAGEDOWN: return KEY_PAGE_DOWN; case QZ_UP: return KEY_UP; case QZ_DOWN: return KEY_DOWN; case QZ_LEFT: return KEY_LEFT; case QZ_RIGHT: return KEY_RIGHT; case QZ_KP_MULTIPLY: return '*'; case QZ_KP_DIVIDE: return '/'; case QZ_KP_ENTER: return KEY_KPENTER; case QZ_KP_PERIOD: return KEY_KPDEC; case QZ_KP0: return KEY_KP0; case QZ_KP1: return KEY_KP1; case QZ_KP2: return KEY_KP2; case QZ_KP3: return KEY_KP3; case QZ_KP4: return KEY_KP4; case QZ_KP5: return KEY_KP5; case QZ_KP6: return KEY_KP6; case QZ_KP7: return KEY_KP7; case QZ_KP8: return KEY_KP8; case QZ_KP9: return KEY_KP9; default: return charcode; } } static void draw_alpha(int x0, int y0, int w, int h, unsigned char *src, unsigned char *srca, int stride) { switch (image_format) { case IMGFMT_RGB32: vo_draw_alpha_rgb32(w,h,src,srca,stride,image_data+4*(y0*imgRect.right+x0),4*imgRect.right); break; case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: vo_draw_alpha_yv12(w,h,src,srca,stride, ((char*)P) + be2me_32(P->componentInfoY.offset) + x0 + y0 * imgRect.right, imgRect.right); break; case IMGFMT_UYVY: vo_draw_alpha_uyvy(w,h,src,srca,stride,((char*)P) + (x0 + y0 * imgRect.right) * 2,imgRect.right*2); break; case IMGFMT_YUY2: vo_draw_alpha_yuy2(w,h,src,srca,stride,((char*)P) + (x0 + y0 * imgRect.right) * 2,imgRect.right*2); break; } } //default keyboard event handler static OSStatus KeyEventHandler(EventHandlerCallRef nextHandler, EventRef event, void *userData) { OSStatus result = noErr; UInt32 class = GetEventClass (event); UInt32 kind = GetEventKind (event); result = CallNextEventHandler(nextHandler, event); if(class == kEventClassKeyboard) { char macCharCodes; UInt32 macKeyCode; UInt32 macKeyModifiers; GetEventParameter(event, kEventParamKeyMacCharCodes, typeChar, NULL, sizeof(macCharCodes), NULL, &macCharCodes); GetEventParameter(event, kEventParamKeyCode, typeUInt32, NULL, sizeof(macKeyCode), NULL, &macKeyCode); GetEventParameter(event, kEventParamKeyModifiers, typeUInt32, NULL, sizeof(macKeyModifiers), NULL, &macKeyModifiers); if(macKeyModifiers != 256) { if (kind == kEventRawKeyRepeat || kind == kEventRawKeyDown) { int key = convert_key(macKeyCode, macCharCodes); if(key != -1) mplayer_put_key(key); } } else if(macKeyModifiers == 256) { switch(macCharCodes) { case '[': SetWindowAlpha(theWindow, winAlpha-=0.05); break; case ']': SetWindowAlpha(theWindow, winAlpha+=0.05); break; } } else result = eventNotHandledErr; } return result; } //default mouse event handler static OSStatus MouseEventHandler(EventHandlerCallRef nextHandler, EventRef event, void *userData) { OSStatus result = noErr; UInt32 class = GetEventClass (event); UInt32 kind = GetEventKind (event); result = CallNextEventHandler(nextHandler, event); if(class == kEventClassMouse) { WindowPtr tmpWin; Point mousePos; Point winMousePos; GetEventParameter(event, kEventParamMouseLocation, typeQDPoint, 0, sizeof(Point), 0, &mousePos); GetEventParameter(event, kEventParamWindowMouseLocation, typeQDPoint, 0, sizeof(Point), 0, &winMousePos); switch (kind) { case kEventMouseMoved: { if(vo_quartz_fs) { CGDisplayShowCursor(kCGDirectMainDisplay); mouseHide = FALSE; } } break; case kEventMouseWheelMoved: { int wheel; short part; GetEventParameter(event, kEventParamMouseWheelDelta, typeSInt32, 0, sizeof(int), 0, &wheel); part = FindWindow(mousePos,&tmpWin); if(part == inContent) { if(wheel > 0) mplayer_put_key(MOUSE_BTN3); else mplayer_put_key(MOUSE_BTN4); } } break; case kEventMouseDown: case kEventMouseUp: { EventMouseButton button; short part; Rect bounds; GetWindowPortBounds(theWindow, &bounds); GetEventParameter(event, kEventParamMouseButton, typeMouseButton, 0, sizeof(EventMouseButton), 0, &button); part = FindWindow(mousePos,&tmpWin); if(kind == kEventMouseUp) { if (part != inContent) break; switch(button) { case kEventMouseButtonPrimary: mplayer_put_key(MOUSE_BTN0); break; case kEventMouseButtonSecondary: mplayer_put_key(MOUSE_BTN2); break; case kEventMouseButtonTertiary: mplayer_put_key(MOUSE_BTN1); break; default:result = eventNotHandledErr;break; } break; } if( (winMousePos.h > (bounds.right - 15)) && (winMousePos.v > (bounds.bottom)) ) { if(!vo_quartz_fs) { GrowWindow(theWindow, mousePos, NULL); } } else if(part == inMenuBar) { MenuSelect(mousePos); HiliteMenu(0); } else if(part == inContent) { switch(button) { case kEventMouseButtonPrimary: mplayer_put_key(MOUSE_BTN0 | MP_KEY_DOWN); break; case kEventMouseButtonSecondary: mplayer_put_key(MOUSE_BTN2 | MP_KEY_DOWN); break; case kEventMouseButtonTertiary: mplayer_put_key(MOUSE_BTN1 | MP_KEY_DOWN); break; default:result = eventNotHandledErr;break; } } } break; case kEventMouseDragged: break; default:result = eventNotHandledErr;break; } } return result; } //default window event handler static OSStatus WindowEventHandler(EventHandlerCallRef nextHandler, EventRef event, void *userData) { OSStatus result = noErr; uint32_t d_width; uint32_t d_height; UInt32 class = GetEventClass (event); UInt32 kind = GetEventKind (event); result = CallNextEventHandler(nextHandler, event); aspect(&d_width,&d_height,A_NOZOOM); if(class == kEventClassCommand) { HICommand theHICommand; GetEventParameter( event, kEventParamDirectObject, typeHICommand, NULL, sizeof( HICommand ), NULL, &theHICommand ); switch ( theHICommand.commandID ) { case kHICommandQuit: mplayer_put_key(KEY_CLOSE_WIN); break; case kHalfScreenCmd: if(vo_quartz_fs) { vo_fs = (!(vo_fs)); window_fullscreen(); } SizeWindow(theWindow, (d_width/2), ((d_width/movie_aspect)/2), 1); window_resized(); break; case kNormalScreenCmd: if(vo_quartz_fs) { vo_fs = (!(vo_fs)); window_fullscreen(); } SizeWindow(theWindow, d_width, (d_width/movie_aspect), 1); window_resized(); break; case kDoubleScreenCmd: if(vo_quartz_fs) { vo_fs = (!(vo_fs)); window_fullscreen(); } SizeWindow(theWindow, (d_width*2), ((d_width/movie_aspect)*2), 1); window_resized(); break; case kFullScreenCmd: vo_fs = (!(vo_fs)); window_fullscreen(); break; case kKeepAspectCmd: vo_keepaspect = (!(vo_keepaspect)); CheckMenuItem (aspectMenu, 1, vo_keepaspect); window_resized(); break; case kAspectOrgCmd: movie_aspect = old_movie_aspect; if(!vo_quartz_fs) { SizeWindow(theWindow, dstRect.right, (dstRect.right/movie_aspect),1); } window_resized(); break; case kAspectFullCmd: movie_aspect = 4.0f/3.0f; if(!vo_quartz_fs) { SizeWindow(theWindow, dstRect.right, (dstRect.right/movie_aspect),1); } window_resized(); break; case kAspectWideCmd: movie_aspect = 16.0f/9.0f; if(!vo_quartz_fs) { SizeWindow(theWindow, dstRect.right, (dstRect.right/movie_aspect),1); } window_resized(); break; case kPanScanCmd: vo_panscan = (!(vo_panscan)); CheckMenuItem (aspectMenu, 2, vo_panscan); window_panscan(); window_resized(); break; default: result = eventNotHandledErr; break; } } else if(class == kEventClassWindow) { WindowRef window; Rect rectPort = {0,0,0,0}; GetEventParameter(event, kEventParamDirectObject, typeWindowRef, NULL, sizeof(WindowRef), NULL, &window); if(window) { GetPortBounds(GetWindowPort(window), &rectPort); } switch (kind) { case kEventWindowClosed: theWindow = NULL; mplayer_put_key(KEY_CLOSE_WIN); break; //resize window case kEventWindowZoomed: case kEventWindowBoundsChanged: window_resized(); flip_page(); window_resized(); break; default: result = eventNotHandledErr; break; } } return result; } static void quartz_CreateWindow(uint32_t d_width, uint32_t d_height, WindowAttributes windowAttrs) { CFStringRef titleKey; CFStringRef windowTitle; OSStatus result; MenuItemIndex index; CFStringRef movMenuTitle; CFStringRef aspMenuTitle; const EventTypeSpec win_events[] = { { kEventClassWindow, kEventWindowClosed }, { kEventClassWindow, kEventWindowBoundsChanged }, { kEventClassCommand, kEventCommandProcess } }; const EventTypeSpec key_events[] = { { kEventClassKeyboard, kEventRawKeyDown }, { kEventClassKeyboard, kEventRawKeyRepeat } }; const EventTypeSpec mouse_events[] = { { kEventClassMouse, kEventMouseMoved }, { kEventClassMouse, kEventMouseWheelMoved }, { kEventClassMouse, kEventMouseDown }, { kEventClassMouse, kEventMouseUp }, { kEventClassMouse, kEventMouseDragged } }; SetRect(&winRect, 0, 0, d_width, d_height); SetRect(&oldWinRect, 0, 0, d_width, d_height); SetRect(&dstRect, 0, 0, d_width, d_height); //Clear Menu Bar ClearMenuBar(); //Create Window Menu CreateStandardWindowMenu(0, &windMenu); InsertMenu(windMenu, 0); //Create Movie Menu CreateNewMenu (1004, 0, &movMenu); movMenuTitle = CFSTR("Movie"); SetMenuTitleWithCFString(movMenu, movMenuTitle); AppendMenuItemTextWithCFString(movMenu, CFSTR("Half Size"), 0, kHalfScreenCmd, &index); SetMenuItemCommandKey(movMenu, index, 0, '0'); AppendMenuItemTextWithCFString(movMenu, CFSTR("Normal Size"), 0, kNormalScreenCmd, &index); SetMenuItemCommandKey(movMenu, index, 0, '1'); AppendMenuItemTextWithCFString(movMenu, CFSTR("Double Size"), 0, kDoubleScreenCmd, &index); SetMenuItemCommandKey(movMenu, index, 0, '2'); AppendMenuItemTextWithCFString(movMenu, CFSTR("Full Size"), 0, kFullScreenCmd, &index); SetMenuItemCommandKey(movMenu, index, 0, 'F'); AppendMenuItemTextWithCFString(movMenu, NULL, kMenuItemAttrSeparator, 0, &index); AppendMenuItemTextWithCFString(movMenu, CFSTR("Aspect Ratio"), 0, 0, &index); ////Create Aspect Ratio Sub Menu CreateNewMenu (0, 0, &aspectMenu); aspMenuTitle = CFSTR("Aspect Ratio"); SetMenuTitleWithCFString(aspectMenu, aspMenuTitle); SetMenuItemHierarchicalMenu(movMenu, 6, aspectMenu); AppendMenuItemTextWithCFString(aspectMenu, CFSTR("Keep"), 0, kKeepAspectCmd, &index); CheckMenuItem (aspectMenu, 1, vo_keepaspect); AppendMenuItemTextWithCFString(aspectMenu, CFSTR("Pan-Scan"), 0, kPanScanCmd, &index); CheckMenuItem (aspectMenu, 2, vo_panscan); AppendMenuItemTextWithCFString(aspectMenu, NULL, kMenuItemAttrSeparator, 0, &index); AppendMenuItemTextWithCFString(aspectMenu, CFSTR("Original"), 0, kAspectOrgCmd, &index); AppendMenuItemTextWithCFString(aspectMenu, CFSTR("4:3"), 0, kAspectFullCmd, &index); AppendMenuItemTextWithCFString(aspectMenu, CFSTR("16:9"), 0, kAspectWideCmd, &index); InsertMenu(movMenu, GetMenuID(windMenu)); //insert before Window menu DrawMenuBar(); //create window CreateNewWindow(kDocumentWindowClass, windowAttrs, &winRect, &theWindow); CreateWindowGroup(0, &winGroup); SetWindowGroup(theWindow, winGroup); //Set window title titleKey = CFSTR("MPlayer - The Movie Player"); windowTitle = CFCopyLocalizedString(titleKey, NULL); result = SetWindowTitleWithCFString(theWindow, windowTitle); CFRelease(titleKey); CFRelease(windowTitle); //Install event handler InstallApplicationEventHandler (NewEventHandlerUPP (KeyEventHandler), GetEventTypeCount(key_events), key_events, NULL, NULL); InstallApplicationEventHandler (NewEventHandlerUPP (MouseEventHandler), GetEventTypeCount(mouse_events), mouse_events, NULL, NULL); InstallWindowEventHandler (theWindow, NewEventHandlerUPP (WindowEventHandler), GetEventTypeCount(win_events), win_events, theWindow, NULL); } static int config(uint32_t width, uint32_t height, uint32_t d_width, uint32_t d_height, uint32_t flags, char *title, uint32_t format) { WindowAttributes windowAttrs; OSErr qterr; int i; CGRect tmpBounds; //Get Main device info/////////////////////////////////////////////////// deviceHdl = GetMainDevice(); for(i=0; igdRect; device_width = deviceRect.right-deviceRect.left; device_height = deviceRect.bottom-deviceRect.top; monitor_aspect = (float)device_width/(float)device_height; //misc mplayer setup///////////////////////////////////////////////////// SetRect(&imgRect, 0, 0, width, height); switch (image_format) { case IMGFMT_RGB32: image_depth = 32; break; case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: image_depth = 16; break; } image_size = ((imgRect.right*imgRect.bottom*image_depth)+7)/8; vo_fs = flags & VOFLAG_FULLSCREEN; //get movie aspect panscan_init(); aspect_save_orig(width,height); aspect_save_prescale(d_width,d_height); aspect_save_screenres(device_width, device_height); aspect(&d_width,&d_height,A_NOZOOM); movie_aspect = (float)d_width/(float)d_height; old_movie_aspect = movie_aspect; if(image_data) free(image_data); image_data = malloc(image_size); //Create player window////////////////////////////////////////////////// windowAttrs = kWindowStandardDocumentAttributes | kWindowStandardHandlerAttribute | kWindowLiveResizeAttribute; windowAttrs &= (~kWindowResizableAttribute); if (theWindow == NULL) { quartz_CreateWindow(d_width, d_height, windowAttrs); if (theWindow == NULL) { mp_msg(MSGT_VO, MSGL_FATAL, "Quartz error: Couldn't create window !!!!!\n"); return -1; } tmpBounds = CGRectMake( 0, 0, winRect.right, winRect.bottom); CreateCGContextForPort(GetWindowPort(theWindow),&context); CGContextFillRect(context, tmpBounds); } else { HideWindow(theWindow); ChangeWindowAttributes(theWindow, ~windowAttrs, windowAttrs); SetRect(&winRect, 0, 0, d_width, d_height); SetRect(&oldWinRect, 0, 0, d_width, d_height); SizeWindow (theWindow, d_width, d_height, 1); } switch (image_format) { case IMGFMT_RGB32: { CreateCGContextForPort (GetWindowPort (theWindow), &context); dataProviderRef = CGDataProviderCreateWithData (0, image_data, imgRect.right * imgRect.bottom * 4, 0); image = CGImageCreate (imgRect.right, imgRect.bottom, 8, image_depth, ((imgRect.right*32)+7)/8, CGColorSpaceCreateDeviceRGB(), kCGImageAlphaNoneSkipFirst, dataProviderRef, 0, 1, kCGRenderingIntentDefault); break; } case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: { get_image_done = 0; if (!EnterMoviesDone) { qterr = EnterMovies(); EnterMoviesDone = 1; } else qterr = 0; if (qterr) { mp_msg(MSGT_VO, MSGL_FATAL, "Quartz error: EnterMovies (%d)\n", qterr); return -1; } SetIdentityMatrix(&matrix); if ((d_width != width) || (d_height != height)) { ScaleMatrix(&matrix, FixDiv(Long2Fix(d_width),Long2Fix(width)), FixDiv(Long2Fix(d_height),Long2Fix(height)), 0, 0); } yuv_qt_stuff.desc = (ImageDescriptionHandle)NewHandleClear( sizeof(ImageDescription) ); yuv_qt_stuff.extension_colr = NewHandleClear(sizeof(NCLCColorInfoImageDescriptionExtension)); ((NCLCColorInfoImageDescriptionExtension*)(*yuv_qt_stuff.extension_colr))->colorParamType = kVideoColorInfoImageDescriptionExtensionType; ((NCLCColorInfoImageDescriptionExtension*)(*yuv_qt_stuff.extension_colr))->primaries = 2; ((NCLCColorInfoImageDescriptionExtension*)(*yuv_qt_stuff.extension_colr))->transferFunction = 2; ((NCLCColorInfoImageDescriptionExtension*)(*yuv_qt_stuff.extension_colr))->matrix = 2; yuv_qt_stuff.extension_fiel = NewHandleClear(sizeof(FieldInfoImageDescriptionExtension)); ((FieldInfoImageDescriptionExtension*)(*yuv_qt_stuff.extension_fiel))->fieldCount = 1; ((FieldInfoImageDescriptionExtension*)(*yuv_qt_stuff.extension_fiel))->fieldOrderings = 0; yuv_qt_stuff.extension_clap = NewHandleClear(sizeof(CleanApertureImageDescriptionExtension)); ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->cleanApertureWidthN = imgRect.right; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->cleanApertureWidthD = 1; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->cleanApertureHeightN = imgRect.bottom; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->cleanApertureHeightD = 1; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->horizOffN = 0; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->horizOffD = 1; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->vertOffN = 0; ((CleanApertureImageDescriptionExtension*)(*yuv_qt_stuff.extension_clap))->vertOffD = 1; yuv_qt_stuff.extension_pasp = NewHandleClear(sizeof(PixelAspectRatioImageDescriptionExtension)); ((PixelAspectRatioImageDescriptionExtension*)(*yuv_qt_stuff.extension_pasp))->hSpacing = 1; ((PixelAspectRatioImageDescriptionExtension*)(*yuv_qt_stuff.extension_pasp))->vSpacing = 1; (*yuv_qt_stuff.desc)->idSize = sizeof(ImageDescription); (*yuv_qt_stuff.desc)->cType = image_qtcodec; (*yuv_qt_stuff.desc)->version = 2; (*yuv_qt_stuff.desc)->revisionLevel = 0; (*yuv_qt_stuff.desc)->vendor = 'mpla'; (*yuv_qt_stuff.desc)->width = imgRect.right; (*yuv_qt_stuff.desc)->height = imgRect.bottom; (*yuv_qt_stuff.desc)->hRes = Long2Fix(72); (*yuv_qt_stuff.desc)->vRes = Long2Fix(72); (*yuv_qt_stuff.desc)->temporalQuality = 0; (*yuv_qt_stuff.desc)->spatialQuality = codecLosslessQuality; (*yuv_qt_stuff.desc)->frameCount = 1; (*yuv_qt_stuff.desc)->dataSize = 0; (*yuv_qt_stuff.desc)->depth = 24; (*yuv_qt_stuff.desc)->clutID = -1; qterr = AddImageDescriptionExtension(yuv_qt_stuff.desc, yuv_qt_stuff.extension_colr, kColorInfoImageDescriptionExtension); if (qterr) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: AddImageDescriptionExtension [colr] (%d)\n", qterr); } qterr = AddImageDescriptionExtension(yuv_qt_stuff.desc, yuv_qt_stuff.extension_fiel, kFieldInfoImageDescriptionExtension); if (qterr) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: AddImageDescriptionExtension [fiel] (%d)\n", qterr); } qterr = AddImageDescriptionExtension(yuv_qt_stuff.desc, yuv_qt_stuff.extension_clap, kCleanApertureImageDescriptionExtension); if (qterr) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: AddImageDescriptionExtension [clap] (%d)\n", qterr); } qterr = AddImageDescriptionExtension(yuv_qt_stuff.desc, yuv_qt_stuff.extension_pasp, kCleanApertureImageDescriptionExtension); if (qterr) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: AddImageDescriptionExtension [pasp] (%d)\n", qterr); } if (P != NULL) { // second or subsequent movie free(P); } P = calloc(sizeof(PlanarPixmapInfoYUV420) + image_size, 1); switch (image_format) { case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: P->componentInfoY.offset = be2me_32(sizeof(PlanarPixmapInfoYUV420)); P->componentInfoCb.offset = be2me_32(be2me_32(P->componentInfoY.offset) + image_size / 2); P->componentInfoCr.offset = be2me_32(be2me_32(P->componentInfoCb.offset) + image_size / 4); P->componentInfoY.rowBytes = be2me_32(imgRect.right); P->componentInfoCb.rowBytes = be2me_32(imgRect.right / 2); P->componentInfoCr.rowBytes = be2me_32(imgRect.right / 2); image_buffer_size = image_size + sizeof(PlanarPixmapInfoYUV420); break; case IMGFMT_UYVY: case IMGFMT_YUY2: image_buffer_size = image_size; break; } qterr = DecompressSequenceBeginS(&seqId, yuv_qt_stuff.desc, (char *)P, image_buffer_size, GetWindowPort(theWindow), NULL, NULL, ((d_width != width) || (d_height != height)) ? &matrix : NULL, srcCopy, NULL, 0, codecLosslessQuality, bestSpeedCodec); if (qterr) { mp_msg(MSGT_VO, MSGL_FATAL, "Quartz error: DecompressSequenceBeginS (%d)\n", qterr); return -1; } } break; } //Show window RepositionWindow(theWindow, NULL, kWindowCenterOnMainScreen); ShowWindow (theWindow); if(vo_fs) window_fullscreen(); if(vo_ontop) window_ontop(); if(vo_rootwin) { vo_fs = TRUE; winLevel = 0; SetWindowGroupLevel(winGroup, CGWindowLevelForKey(levelList[winLevel])); window_fullscreen(); } window_resized(); return 0; } static void check_events(void) { EventRef theEvent; EventTargetRef theTarget; OSStatus theErr; //Get event theTarget = GetEventDispatcherTarget(); theErr = ReceiveNextEvent(0, 0, kEventDurationNoWait,true, &theEvent); if(theErr == noErr && theEvent != NULL) { SendEventToEventTarget (theEvent, theTarget); ReleaseEvent(theEvent); } } static void draw_osd(void) { vo_draw_text(imgRect.right,imgRect.bottom,draw_alpha); } static void flip_page(void) { int curTime; static int lastTime = 0; if(theWindow == NULL) return; switch (image_format) { case IMGFMT_RGB32: { CGContextDrawImage (context, bounds, image); } break; case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: if (EnterMoviesDone) { OSErr qterr; CodecFlags flags = 0; qterr = DecompressSequenceFrameWhen(seqId, (char *)P, image_buffer_size, 0, //codecFlagUseImageBuffer, &flags, NULL, NULL); if (qterr) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: DecompressSequenceFrameWhen in flip_page (%d) flags:0x%08x\n", qterr, flags); } } break; } if(!vo_quartz_fs) { //render resize box CGContextBeginPath(context); CGContextSetAllowsAntialiasing(context, false); //CGContextSaveGState(context); //line white CGContextSetRGBStrokeColor (context, 0.2, 0.2, 0.2, 0.5); CGContextMoveToPoint( context, winRect.right-1, 1); CGContextAddLineToPoint( context, winRect.right-1, 1); CGContextMoveToPoint( context, winRect.right-1, 5); CGContextAddLineToPoint( context, winRect.right-5, 1); CGContextMoveToPoint( context, winRect.right-1, 9); CGContextAddLineToPoint( context, winRect.right-9, 1); CGContextStrokePath( context ); //line gray CGContextSetRGBStrokeColor (context, 0.4, 0.4, 0.4, 0.5); CGContextMoveToPoint( context, winRect.right-1, 2); CGContextAddLineToPoint( context, winRect.right-2, 1); CGContextMoveToPoint( context, winRect.right-1, 6); CGContextAddLineToPoint( context, winRect.right-6, 1); CGContextMoveToPoint( context, winRect.right-1, 10); CGContextAddLineToPoint( context, winRect.right-10, 1); CGContextStrokePath( context ); //line black CGContextSetRGBStrokeColor (context, 0.6, 0.6, 0.6, 0.5); CGContextMoveToPoint( context, winRect.right-1, 3); CGContextAddLineToPoint( context, winRect.right-3, 1); CGContextMoveToPoint( context, winRect.right-1, 7); CGContextAddLineToPoint( context, winRect.right-7, 1); CGContextMoveToPoint( context, winRect.right-1, 11); CGContextAddLineToPoint( context, winRect.right-11, 1); CGContextStrokePath( context ); //CGContextRestoreGState( context ); CGContextFlush (context); } //auto hide mouse cursor and futur on-screen control? if(vo_quartz_fs && !mouseHide) { int curTime = TickCount()/60; static int lastTime = 0; if( ((curTime - lastTime) >= 5) || (lastTime == 0) ) { CGDisplayHideCursor(kCGDirectMainDisplay); mouseHide = TRUE; lastTime = curTime; } } //update activity every 30 seconds to prevent //screensaver from starting up. curTime = TickCount()/60; if( ((curTime - lastTime) >= 30) || (lastTime == 0) ) { UpdateSystemActivity(UsrActivity); lastTime = curTime; } } static int draw_slice(uint8_t *src[], int stride[], int w,int h,int x,int y) { switch (image_format) { case IMGFMT_YV12: case IMGFMT_I420: memcpy_pic(((char*)P) + be2me_32(P->componentInfoY.offset) + x + imgRect.right * y, src[0], w, h, imgRect.right, stride[0]); x=x/2;y=y/2;w=w/2;h=h/2; memcpy_pic(((char*)P) + be2me_32(P->componentInfoCb.offset) + x + imgRect.right / 2 * y, src[1], w, h, imgRect.right / 2, stride[1]); memcpy_pic(((char*)P) + be2me_32(P->componentInfoCr.offset) + x + imgRect.right / 2 * y, src[2], w, h, imgRect.right / 2, stride[2]); return 0; case IMGFMT_IYUV: memcpy_pic(((char*)P) + be2me_32(P->componentInfoY.offset) + x + imgRect.right * y, src[0], w, h, imgRect.right, stride[0]); x=x/2;y=y/2;w=w/2;h=h/2; memcpy_pic(((char*)P) + be2me_32(P->componentInfoCr.offset) + x + imgRect.right / 2 * y, src[1], w, h, imgRect.right / 2, stride[1]); memcpy_pic(((char*)P) + be2me_32(P->componentInfoCb.offset) + x + imgRect.right / 2 * y, src[2], w, h, imgRect.right / 2, stride[2]); return 0; } return -1; } static int draw_frame(uint8_t *src[]) { switch (image_format) { case IMGFMT_RGB32: fast_memcpy(image_data,src[0],image_size); return 0; case IMGFMT_UYVY: case IMGFMT_YUY2: memcpy_pic(((char*)P), src[0], imgRect.right * 2, imgRect.bottom, imgRect.right * 2, imgRect.right * 2); return 0; } return -1; } static int query_format(uint32_t format) { image_format = format; image_qtcodec = 0; if (format == IMGFMT_RGB32) { return VFCAP_CSP_SUPPORTED | VFCAP_OSD | VFCAP_HWSCALE_UP | VFCAP_HWSCALE_DOWN; } if ((format == IMGFMT_YV12) || (format == IMGFMT_IYUV) || (format == IMGFMT_I420)) { image_qtcodec = kMpegYUV420CodecType; //kYUV420CodecType ?; return VFCAP_CSP_SUPPORTED | VFCAP_OSD | VFCAP_HWSCALE_UP | VFCAP_HWSCALE_DOWN | VFCAP_ACCEPT_STRIDE; } if (format == IMGFMT_YUY2) { image_qtcodec = kComponentVideoUnsigned; return VFCAP_CSP_SUPPORTED | VFCAP_OSD | VFCAP_HWSCALE_UP | VFCAP_HWSCALE_DOWN; } if (format == IMGFMT_UYVY) { image_qtcodec = k422YpCbCr8CodecType; return VFCAP_CSP_SUPPORTED | VFCAP_OSD | VFCAP_HWSCALE_UP | VFCAP_HWSCALE_DOWN; } return 0; } static void uninit(void) { OSErr qterr; switch (image_format) { case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: { if (EnterMoviesDone) { qterr = CDSequenceEnd(seqId); if (qterr) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: CDSequenceEnd (%d)\n", qterr); } } break; } default: break; } ShowMenuBar(); } static int preinit(const char *arg) { int parse_err = 0; if(arg) { char *parse_pos = (char *)&arg[0]; while (parse_pos[0] && !parse_err) { if (strncmp (parse_pos, "device_id=", 10) == 0) { parse_pos = &parse_pos[10]; device_id = strtol(parse_pos, &parse_pos, 0); } if (strncmp (parse_pos, "fs_res=", 7) == 0) { parse_pos = &parse_pos[7]; fs_res_x = strtol(parse_pos, &parse_pos, 0); parse_pos = &parse_pos[1]; fs_res_y = strtol(parse_pos, &parse_pos, 0); } if (parse_pos[0] == ':') parse_pos = &parse_pos[1]; else if (parse_pos[0]) parse_err = 1; } } #if !defined (MACOSX_FINDER_SUPPORT) || !defined (HAVE_SDL) //this chunk of code is heavily based off SDL_macosx.m from SDL //it uses an Apple private function to request foreground operation { void CPSEnableForegroundOperation(ProcessSerialNumber* psn); ProcessSerialNumber myProc, frProc; Boolean sameProc; if (GetFrontProcess(&frProc) == noErr) { if (GetCurrentProcess(&myProc) == noErr) { if (SameProcess(&frProc, &myProc, &sameProc) == noErr && !sameProc) { CPSEnableForegroundOperation(&myProc); } SetFrontProcess(&myProc); } } } #endif return 0; } static uint32_t draw_yuv_image(mp_image_t *mpi) { // ATM we're only called for planar IMGFMT // drawing is done directly in P // and displaying is in flip_page. return get_image_done ? VO_TRUE : VO_FALSE; } static uint32_t get_yuv_image(mp_image_t *mpi) { if(mpi->type!=MP_IMGTYPE_EXPORT) return VO_FALSE; if(mpi->imgfmt!=image_format) return VO_FALSE; if(mpi->flags&MP_IMGFLAG_PLANAR) { if (mpi->num_planes != 3) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: only 3 planes allowed in get_yuv_image for planar (%d) \n", mpi->num_planes); return VO_FALSE; } mpi->planes[0]=((char*)P) + be2me_32(P->componentInfoY.offset); mpi->stride[0]=imgRect.right; mpi->width=imgRect.right; if(mpi->flags&MP_IMGFLAG_SWAPPED) { // I420 mpi->planes[1]=((char*)P) + be2me_32(P->componentInfoCb.offset); mpi->planes[2]=((char*)P) + be2me_32(P->componentInfoCr.offset); mpi->stride[1]=imgRect.right/2; mpi->stride[2]=imgRect.right/2; } else { // YV12 mpi->planes[1]=((char*)P) + be2me_32(P->componentInfoCr.offset); mpi->planes[2]=((char*)P) + be2me_32(P->componentInfoCb.offset); mpi->stride[1]=imgRect.right/2; mpi->stride[2]=imgRect.right/2; } mpi->flags|=MP_IMGFLAG_DIRECT; get_image_done = 1; return VO_TRUE; } else { // doesn't work yet if (mpi->num_planes != 1) { mp_msg(MSGT_VO, MSGL_ERR, "Quartz error: only 1 plane allowed in get_yuv_image for packed (%d) \n", mpi->num_planes); return VO_FALSE; } mpi->planes[0] = (char*)P; mpi->stride[0] = imgRect.right * 2; mpi->width=imgRect.right; mpi->flags|=MP_IMGFLAG_DIRECT; get_image_done = 1; return VO_TRUE; } return VO_FALSE; } static int control(uint32_t request, void *data, ...) { switch (request) { case VOCTRL_PAUSE: return (int_pause=1); case VOCTRL_RESUME: return (int_pause=0); case VOCTRL_FULLSCREEN: vo_fs = (!(vo_fs)); window_fullscreen(); return VO_TRUE; case VOCTRL_ONTOP: vo_ontop = (!(vo_ontop)); window_ontop(); return VO_TRUE; case VOCTRL_QUERY_FORMAT: return query_format(*((uint32_t*)data)); case VOCTRL_GET_PANSCAN: return VO_TRUE; case VOCTRL_SET_PANSCAN: window_panscan(); return VO_TRUE; case VOCTRL_GET_IMAGE: switch (image_format) { case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: return get_yuv_image(data); break; default: break; } case VOCTRL_DRAW_IMAGE: switch (image_format) { case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: return draw_yuv_image(data); break; default: break; } } return VO_NOTIMPL; } void window_resized() { float aspectX; float aspectY; int padding = 0; uint32_t d_width; uint32_t d_height; CGRect tmpBounds; GetPortBounds( GetWindowPort(theWindow), &winRect ); if(vo_keepaspect) { aspect( &d_width, &d_height, A_NOZOOM); d_height = ((float)d_width/movie_aspect); aspectX = (float)((float)winRect.right/(float)d_width); aspectY = (float)((float)(winRect.bottom)/(float)d_height); if((d_height*aspectX)>(winRect.bottom)) { padding = (winRect.right - d_width*aspectY)/2; SetRect(&dstRect, padding, 0, d_width*aspectY+padding, d_height*aspectY); } else { padding = ((winRect.bottom) - d_height*aspectX)/2; SetRect(&dstRect, 0, padding, (d_width*aspectX), d_height*aspectX+padding); } } else { SetRect(&dstRect, 0, 0, winRect.right, winRect.bottom); } switch (image_format) { case IMGFMT_RGB32: { bounds = CGRectMake(dstRect.left, dstRect.top, dstRect.right-dstRect.left, dstRect.bottom-dstRect.top); CreateCGContextForPort (GetWindowPort (theWindow), &context); break; } case IMGFMT_YV12: case IMGFMT_IYUV: case IMGFMT_I420: case IMGFMT_UYVY: case IMGFMT_YUY2: { long scale_X = FixDiv(Long2Fix(dstRect.right - dstRect.left),Long2Fix(imgRect.right)); long scale_Y = FixDiv(Long2Fix(dstRect.bottom - dstRect.top),Long2Fix(imgRect.bottom)); SetIdentityMatrix(&matrix); if (((dstRect.right - dstRect.left) != imgRect.right) || ((dstRect.bottom - dstRect.right) != imgRect.bottom)) { ScaleMatrix(&matrix, scale_X, scale_Y, 0, 0); if (padding > 0) { TranslateMatrix(&matrix, Long2Fix(dstRect.left), Long2Fix(dstRect.top)); } } SetDSequenceMatrix(seqId, &matrix); break; } default: break; } //Clear Background tmpBounds = CGRectMake( 0, 0, winRect.right, winRect.bottom); CreateCGContextForPort(GetWindowPort(theWindow),&context); CGContextFillRect(context, tmpBounds); } void window_ontop() { if(!vo_quartz_fs) { //Cycle between level winLevel++; if(winLevel>2) winLevel = 1; } SetWindowGroupLevel(winGroup, CGWindowLevelForKey(levelList[winLevel])); } void window_fullscreen() { static Ptr restoreState = NULL; //go fullscreen if(vo_fs) { if(winLevel != 0) { if(device_id == 0) { SetSystemUIMode( kUIModeAllHidden, kUIOptionAutoShowMenuBar); CGDisplayHideCursor(kCGDirectMainDisplay); mouseHide = TRUE; } if(fs_res_x != 0 || fs_res_y != 0) { BeginFullScreen( &restoreState, deviceHdl, &fs_res_x, &fs_res_y, NULL, NULL, 0); //Get Main device info/////////////////////////////////////////////////// deviceRect = (*deviceHdl)->gdRect; device_width = deviceRect.right; device_height = deviceRect.bottom; } } //save old window size if (!vo_quartz_fs) { GetWindowPortBounds(theWindow, &oldWinRect); GetWindowBounds(theWindow, kWindowContentRgn, &oldWinBounds); } //go fullscreen panscan_calc(); ChangeWindowAttributes(theWindow, kWindowNoShadowAttribute, 0); MoveWindow(theWindow, deviceRect.left-(vo_panscan_x >> 1), deviceRect.top-(vo_panscan_y >> 1), 1); SizeWindow(theWindow, device_width+vo_panscan_x, device_height+vo_panscan_y,1); vo_quartz_fs = 1; } else //go back to windowed mode { vo_quartz_fs = 0; if(restoreState != NULL) { EndFullScreen(restoreState, 0); //Get Main device info/////////////////////////////////////////////////// deviceRect = (*deviceHdl)->gdRect; device_width = deviceRect.right; device_height = deviceRect.bottom; restoreState = NULL; } SetSystemUIMode( kUIModeNormal, 0); //show mouse cursor CGDisplayShowCursor(kCGDirectMainDisplay); mouseHide = FALSE; //revert window to previous setting ChangeWindowAttributes(theWindow, 0, kWindowNoShadowAttribute); SizeWindow(theWindow, oldWinRect.right, oldWinRect.bottom,1); MoveWindow(theWindow, oldWinBounds.left, oldWinBounds.top, 1); } window_resized(); } void window_panscan() { panscan_calc(); if(vo_panscan > 0) CheckMenuItem (aspectMenu, 2, 1); else CheckMenuItem (aspectMenu, 2, 0); if(vo_quartz_fs) { MoveWindow(theWindow, deviceRect.left-(vo_panscan_x >> 1), deviceRect.top-(vo_panscan_y >> 1), 1); SizeWindow(theWindow, device_width+vo_panscan_x, device_height+vo_panscan_y,1); } }