// 6 april 2015 #import "uipriv_darwin.h" #import "attrstr.h" static BOOL canQuit = NO; static NSAutoreleasePool *globalPool; static uiprivApplicationClass *app; static uiprivAppDelegate *delegate; static BOOL (^isRunning)(void); static BOOL stepsIsRunning; @implementation uiprivApplicationClass - (void)sendEvent:(NSEvent *)e { if (uiprivSendAreaEvents(e) != 0) return; [super sendEvent:e]; } // NSColorPanel always sends changeColor: to the first responder regardless of whether there's a target set on it // we can override it here (see colorbutton.m) // thanks to mikeash in irc.freenode.net/#macdev for informing me this is how the first responder chain is initiated // it turns out NSFontManager also sends changeFont: through this; let's inhibit that here too (see fontbutton.m) - (BOOL)sendAction:(SEL)sel to:(id)to from:(id)from { if (uiprivColorButtonInhibitSendAction(sel, from, to)) return NO; if (uiprivFontButtonInhibitSendAction(sel, from, to)) return NO; return [super sendAction:sel to:to from:from]; } // likewise, NSFontManager also sends NSFontPanelValidation messages to the first responder, however it does NOT use sendAction:from:to:! // instead, it uses this one (thanks swillits in irc.freenode.net/#macdev) // we also need to override it (see fontbutton.m) - (id)targetForAction:(SEL)sel to:(id)to from:(id)from { id override; if (uiprivFontButtonOverrideTargetForAction(sel, from, to, &override)) return override; return [super targetForAction:sel to:to from:from]; } // hey look! we're overriding terminate:! // we're going to make sure we can go back to main() whether Cocoa likes it or not! // and just how are we going to do that, hm? // (note: this is called after applicationShouldTerminate:) - (void)terminate:(id)sender { // yes that's right folks: DO ABSOLUTELY NOTHING. // the magic is [NSApp run] will just... stop. // well let's not do nothing; let's actually quit our graceful way NSEvent *e; if (!canQuit) uiprivImplBug("call to [NSApp terminate:] when not ready to terminate; definitely contact andlabs"); // and in case uiMainSteps() was called stepsIsRunning = NO; } @end @implementation uiprivAppDelegate - (void)dealloc { // Apple docs: "Don't Use Accessor Methods in Initializer Methods and dealloc" [_menuManager release]; [super dealloc]; } @end uiInitOptions uiprivOptions; const char *uiInit(uiInitOptions *o) { @autoreleasepool { uiprivOptions = *o; uiprivInitAlloc(); uiprivLoadFutures(); uiprivLoadUndocumented(); // always do this so we always have an application menu uiprivAppDelegate().menuManager = [[uiprivMenuManager new] autorelease]; [uiprivNSApp() setMainMenu:[uiprivAppDelegate().menuManager makeMenubar]]; uiprivSetupFontPanel(); uiprivInitUnderlineColors(); } globalPool = [[NSAutoreleasePool alloc] init]; return NULL; } void uiUninit(void) { if (!globalPool) uiprivUserBug("You must call uiInit() first!"); [globalPool release]; @autoreleasepool { uiprivUninitUnderlineColors(); [delegate release]; [uiprivNSApp() setDelegate:nil]; [app release]; uiprivUninitAlloc(); } } void uiFreeInitError(const char *err) { } void uiMain(void) { isRunning = ^{ return [uiprivNSApp() isRunning]; }; [uiprivNSApp() run]; } void uiMainSteps(void) { // SDL does this and it seems to be necessary for the menubar to work (see #182) [uiprivNSApp() finishLaunching]; isRunning = ^{ return stepsIsRunning; }; stepsIsRunning = YES; } int uiMainStep(int wait) { uiprivNextEventArgs nea; nea.mask = NSAnyEventMask; // ProPuke did this in his original PR requesting this // I'm not sure if this will work, but I assume it will... nea.duration = [NSDate distantPast]; if (wait) // but this is normal so it will work nea.duration = [NSDate distantFuture]; nea.mode = NSDefaultRunLoopMode; nea.dequeue = YES; return uiprivMainStep(&nea, ^(NSEvent *e) { return NO; }); } // see also: // - http://www.cocoawithlove.com/2009/01/demystifying-nsapplication-by.html // - https://github.com/gnustep/gui/blob/master/Source/NSApplication.m int uiprivMainStep(uiprivNextEventArgs *nea, BOOL (^interceptEvent)(NSEvent *e)) { NSDate *expire; NSEvent *e; NSEventType type; @autoreleasepool { if (!isRunning()) return 0; e = [uiprivNSApp() nextEventMatchingMask:nea->mask untilDate:nea->duration inMode:nea->mode dequeue:nea->dequeue]; if (e == nil) return 1; type = [e type]; if (!interceptEvent(e)) [uiprivNSApp() sendEvent:e]; [uiprivNSApp() updateWindows]; // GNUstep does this // it also updates the Services menu but there doesn't seem to be a public API for that so if (type != NSPeriodic && type != NSMouseMoved) [[uiprivNSApp() mainMenu] update]; return 1; } } @interface uiprivTimerDelegate : NSObject { int (*f)(void *data); void *data; } - (id)initWithCallback:(int (*)(void *))callback data:(void *)callbackData; - (void)doTimer:(NSTimer *)timer; @end @implementation uiprivTimerDelegate - (id)initWithCallback:(int (*)(void *))callback data:(void *)callbackData { self = [super init]; if (self) { self->f = callback; self->data = callbackData; } return self; } - (void)doTimer:(NSTimer *)timer { if (!(*(self->f))(self->data)) [timer invalidate]; } @end void uiTimer(int milliseconds, int (*f)(void *data), void *data) { uiprivTimerDelegate *delegate; delegate = [[uiprivTimerDelegate alloc] initWithCallback:f data:data]; [NSTimer scheduledTimerWithTimeInterval:(milliseconds / 1000.0) target:delegate selector:@selector(doTimer:) userInfo:nil repeats:YES]; [delegate release]; } // TODO figure out the best way to clean the above up in uiUninit(), if it's even necessary // TODO that means figure out if timers can still fire without the main loop