-/* xscreensaver, Copyright (c) 2006-2011 Jamie Zawinski <jwz@jwz.org>
-*
-* Permission to use, copy, modify, distribute, and sell this software and its
-* documentation for any purpose is hereby granted without fee, provided that
-* the above copyright notice appear in all copies and that both that
-* copyright notice and this permission notice appear in supporting
-* documentation. No representations are made about the suitability of this
-* software for any purpose. It is provided "as is" without express or
-* implied warranty.
-*/
+/* xscreensaver, Copyright (c) 2006-2014 Jamie Zawinski <jwz@jwz.org>
+ *
+ * Permission to use, copy, modify, distribute, and sell this software and its
+ * documentation for any purpose is hereby granted without fee, provided that
+ * the above copyright notice appear in all copies and that both that
+ * copyright notice and this permission notice appear in supporting
+ * documentation. No representations are made about the suitability of this
+ * software for any purpose. It is provided "as is" without express or
+ * implied warranty.
+ */
/* This is a subclass of Apple's ScreenSaverView that knows how to run
xscreensaver programs without X11 via the dark magic of the "jwxyz"
the "screenhack.c" module.
*/
+#import <QuartzCore/QuartzCore.h>
+#import <zlib.h>
#import "XScreenSaverView.h"
#import "XScreenSaverConfigSheet.h"
+#import "Updater.h"
#import "screenhackI.h"
#import "xlockmoreI.h"
#import "jwxyz-timers.h"
+
/* Garbage collection only exists if we are being compiled against the
10.6 SDK or newer, not if we are building against the 10.4 SDK.
*/
int mono_p = 0;
+# ifdef USE_IPHONE
+
+extern NSDictionary *make_function_table_dict(void); // ios-function-table.m
+
+/* Stub definition of the superclass, for iPhone.
+ */
+@implementation ScreenSaverView
+{
+ NSTimeInterval anim_interval;
+ Bool animating_p;
+ NSTimer *anim_timer;
+}
+
+- (id)initWithFrame:(NSRect)frame isPreview:(BOOL)isPreview {
+ self = [super initWithFrame:frame];
+ if (! self) return 0;
+ anim_interval = 1.0/30;
+ return self;
+}
+- (NSTimeInterval)animationTimeInterval { return anim_interval; }
+- (void)setAnimationTimeInterval:(NSTimeInterval)i { anim_interval = i; }
+- (BOOL)hasConfigureSheet { return NO; }
+- (NSWindow *)configureSheet { return nil; }
+- (NSView *)configureView { return nil; }
+- (BOOL)isPreview { return NO; }
+- (BOOL)isAnimating { return animating_p; }
+- (void)animateOneFrame { }
+
+- (void)startAnimation {
+ if (animating_p) return;
+ animating_p = YES;
+ anim_timer = [NSTimer scheduledTimerWithTimeInterval: anim_interval
+ target:self
+ selector:@selector(animateOneFrame)
+ userInfo:nil
+ repeats:YES];
+}
+
+- (void)stopAnimation {
+ if (anim_timer) {
+ [anim_timer invalidate];
+ anim_timer = 0;
+ }
+ animating_p = NO;
+}
+@end
+
+# endif // !USE_IPHONE
+
+
+
+@interface XScreenSaverView (Private)
+- (void) stopAndClose:(Bool)relaunch;
+@end
+
@implementation XScreenSaverView
-- (struct xscreensaver_function_table *) findFunctionTable
+// Given a lower-cased saver name, returns the function table for it.
+// If no name, guess the name from the class's bundle name.
+//
+- (struct xscreensaver_function_table *) findFunctionTable:(NSString *)name
{
NSBundle *nsb = [NSBundle bundleForClass:[self class]];
NSAssert1 (nsb, @"no bundle for class %@", [self class]);
-
+
NSString *path = [nsb bundlePath];
- NSString *name = [[[path lastPathComponent] stringByDeletingPathExtension]
- lowercaseString];
- NSString *suffix = @"_xscreensaver_function_table";
- NSString *table_name = [name stringByAppendingString:suffix];
-
CFURLRef url = CFURLCreateWithFileSystemPath(kCFAllocatorDefault,
(CFStringRef) path,
kCFURLPOSIXPathStyle,
CFBundleRef cfb = CFBundleCreate (kCFAllocatorDefault, url);
CFRelease (url);
NSAssert1 (cfb, @"no CFBundle for \"%@\"", path);
+ // #### Analyze says "Potential leak of an object stored into cfb"
+ if (! name)
+ name = [[path lastPathComponent] stringByDeletingPathExtension];
+
+ name = [[name lowercaseString]
+ stringByReplacingOccurrencesOfString:@" "
+ withString:@""];
+
+# ifndef USE_IPHONE
+ // CFBundleGetDataPointerForName doesn't work in "Archive" builds.
+ // I'm guessing that symbol-stripping is mandatory. Fuck.
+ NSString *table_name = [name stringByAppendingString:
+ @"_xscreensaver_function_table"];
void *addr = CFBundleGetDataPointerForName (cfb, (CFStringRef) table_name);
- NSAssert2 (addr, @"no symbol \"%@\" in bundle %@", table_name, path);
CFRelease (cfb);
-// NSLog (@"%@ = 0x%08X", table_name, (unsigned long) addr);
+ if (! addr)
+ NSLog (@"no symbol \"%@\" for \"%@\"", table_name, path);
+
+# else // USE_IPHONE
+ // Remember: any time you add a new saver to the iOS app,
+ // manually run "make ios-function-table.m"!
+ if (! function_tables)
+ function_tables = [make_function_table_dict() retain];
+ NSValue *v = [function_tables objectForKey: name];
+ void *addr = v ? [v pointerValue] : 0;
+# endif // USE_IPHONE
+
return (struct xscreensaver_function_table *) addr;
}
strcat (npath, opath);
if (putenv (npath)) {
perror ("putenv");
- abort();
+ NSAssert1 (0, @"putenv \"%s\" failed", npath);
}
/* Don't free (npath) -- MacOS's putenv() does not copy it. */
strcat (env, s);
if (putenv (env)) {
perror ("putenv");
- abort();
+ NSAssert1 (0, @"putenv \"%s\" failed", env);
}
/* Don't free (env) -- MacOS's putenv() does not copy it. */
}
/* These aren't "real" command-line options (there are no actual command-line
options in the Cocoa version); but this is the somewhat kludgey way that
the <xscreensaver-text /> and <xscreensaver-image /> tags in the
- ../hacks/config/*.xml files communicate with the preferences database.
+ ../hacks/config/\*.xml files communicate with the preferences database.
*/
static const XrmOptionDescRec default_options [] = {
{ "-text-mode", ".textMode", XrmoptionSepArg, 0 },
{ "-text-literal", ".textLiteral", XrmoptionSepArg, 0 },
{ "-text-file", ".textFile", XrmoptionSepArg, 0 },
{ "-text-url", ".textURL", XrmoptionSepArg, 0 },
+ { "-text-program", ".textProgram", XrmoptionSepArg, 0 },
{ "-grab-desktop", ".grabDesktopImages", XrmoptionNoArg, "True" },
{ "-no-grab-desktop", ".grabDesktopImages", XrmoptionNoArg, "False"},
{ "-choose-random-images", ".chooseRandomImages",XrmoptionNoArg, "True" },
{ "-image-directory", ".imageDirectory", XrmoptionSepArg, 0 },
{ "-fps", ".doFPS", XrmoptionNoArg, "True" },
{ "-no-fps", ".doFPS", XrmoptionNoArg, "False"},
+ { "-foreground", ".foreground", XrmoptionSepArg, 0 },
+ { "-fg", ".foreground", XrmoptionSepArg, 0 },
+ { "-background", ".background", XrmoptionSepArg, 0 },
+ { "-bg", ".background", XrmoptionSepArg, 0 },
+
+# ifndef USE_IPHONE
+ // <xscreensaver-updater />
+ { "-" SUSUEnableAutomaticChecksKey,
+ "." SUSUEnableAutomaticChecksKey, XrmoptionNoArg, "True" },
+ { "-no-" SUSUEnableAutomaticChecksKey,
+ "." SUSUEnableAutomaticChecksKey, XrmoptionNoArg, "False" },
+ { "-" SUAutomaticallyUpdateKey,
+ "." SUAutomaticallyUpdateKey, XrmoptionNoArg, "True" },
+ { "-no-" SUAutomaticallyUpdateKey,
+ "." SUAutomaticallyUpdateKey, XrmoptionNoArg, "False" },
+ { "-" SUSendProfileInfoKey,
+ "." SUSendProfileInfoKey, XrmoptionNoArg,"True" },
+ { "-no-" SUSendProfileInfoKey,
+ "." SUSendProfileInfoKey, XrmoptionNoArg,"False"},
+ { "-" SUScheduledCheckIntervalKey,
+ "." SUScheduledCheckIntervalKey, XrmoptionSepArg, 0 },
+# endif // !USE_IPHONE
+
{ 0, 0, 0, 0 }
};
static const char *default_defaults [] = {
".doFPS: False",
".doubleBuffer: True",
".multiSample: False",
+# ifndef USE_IPHONE
".textMode: date",
+# else
+ ".textMode: url",
+# endif
// ".textLiteral: ",
// ".textFile: ",
- // ".textURL: ",
+ ".textURL: http://en.wikipedia.org/w/index.php?title=Special:NewPages&feed=rss",
+ // ".textProgram: ",
".grabDesktopImages: yes",
+# ifndef USE_IPHONE
".chooseRandomImages: no",
+# else
+ ".chooseRandomImages: yes",
+# endif
".imageDirectory: ~/Pictures",
+ ".relaunchDelay: 2",
+
+# ifndef USE_IPHONE
+# define STR1(S) #S
+# define STR(S) STR1(S)
+# define __objc_yes Yes
+# define __objc_no No
+ "." SUSUEnableAutomaticChecksKey ": " STR(SUSUEnableAutomaticChecksDef),
+ "." SUAutomaticallyUpdateKey ": " STR(SUAutomaticallyUpdateDef),
+ "." SUSendProfileInfoKey ": " STR(SUSendProfileInfoDef),
+ "." SUScheduledCheckIntervalKey ": " STR(SUScheduledCheckIntervalDef),
+# undef __objc_yes
+# undef __objc_no
+# undef STR1
+# undef STR
+# endif // USE_IPHONE
0
};
}
-- (id) initWithFrame:(NSRect)frame isPreview:(BOOL)isPreview
+#ifdef USE_IPHONE
+/* Returns the current time in seconds as a double.
+ */
+static double
+double_time (void)
{
+ struct timeval now;
+# ifdef GETTIMEOFDAY_TWO_ARGS
+ struct timezone tzp;
+ gettimeofday(&now, &tzp);
+# else
+ gettimeofday(&now);
+# endif
+
+ return (now.tv_sec + ((double) now.tv_usec * 0.000001));
+}
+#endif // USE_IPHONE
+
+
+- (id) initWithFrame:(NSRect)frame
+ saverName:(NSString *)saverName
+ isPreview:(BOOL)isPreview
+{
+# ifdef USE_IPHONE
+ initial_bounds = frame.size;
+ rot_current_size = frame.size; // needs to be early, because
+ rot_from = rot_current_size; // [self setFrame] is called by
+ rot_to = rot_current_size; // [super initWithFrame].
+ rotation_ratio = -1;
+# endif
+
if (! (self = [super initWithFrame:frame isPreview:isPreview]))
return 0;
- xsft = [self findFunctionTable];
+ xsft = [self findFunctionTable: saverName];
+ if (! xsft) {
+ [self release];
+ return 0;
+ }
+
[self setShellPath];
+# ifdef USE_IPHONE
+ [self setMultipleTouchEnabled:YES];
+ orientation = UIDeviceOrientationUnknown;
+ [self didRotate:nil];
+# endif // USE_IPHONE
+
setup_p = YES;
if (xsft->setup_cb)
xsft->setup_cb (xsft, xsft->setup_arg);
"org.jwz.xscreensaver.<SAVERNAME>.<NUMBERS>.plist"
*/
NSString *name = [NSString stringWithCString:xsft->progclass
- encoding:NSUTF8StringEncoding];
+ encoding:NSISOLatin1StringEncoding];
name = [@"org.jwz.xscreensaver." stringByAppendingString:name];
[self setResourcesEnv:name];
next_frame_time = 0;
+# ifdef USE_BACKBUFFER
+ [self createBackbuffer];
+ [self initLayer];
+# endif
+
+# ifdef USE_IPHONE
+ // So we can tell when we're docked.
+ [UIDevice currentDevice].batteryMonitoringEnabled = YES;
+# endif // USE_IPHONE
+
return self;
}
+- (void) initLayer
+{
+# if !defined(USE_IPHONE) && defined(BACKBUFFER_CALAYER)
+ [self setLayer: [CALayer layer]];
+ self.layer.delegate = self;
+ self.layer.opaque = YES;
+ [self setWantsLayer: YES];
+# endif // !USE_IPHONE && BACKBUFFER_CALAYER
+}
+
+
+- (id) initWithFrame:(NSRect)frame isPreview:(BOOL)p
+{
+ return [self initWithFrame:frame saverName:0 isPreview:p];
+}
+
+
- (void) dealloc
{
NSAssert(![self isAnimating], @"still animating");
NSAssert(!xdata, @"xdata not yet freed");
- if (xdpy)
- jwxyz_free_display (xdpy);
+ NSAssert(!xdpy, @"xdpy not yet freed");
+
+# ifdef USE_BACKBUFFER
+ if (backbuffer)
+ CGContextRelease (backbuffer);
+
+ if (colorspace)
+ CGColorSpaceRelease (colorspace);
+
+# ifdef BACKBUFFER_CGCONTEXT
+ if (window_ctx)
+ CGContextRelease (window_ctx);
+# endif // BACKBUFFER_CGCONTEXT
+
+# endif // USE_BACKBUFFER
+
[prefsReader release];
+
+ // xsft
+ // fpst
+
[super dealloc];
}
}
+#ifdef USE_IPHONE
+- (void) lockFocus { }
+- (void) unlockFocus { }
+#endif // USE_IPHONE
+
+
+
+# ifdef USE_IPHONE
+/* A few seconds after the saver launches, we store the "wasRunning"
+ preference. This is so that if the saver is crashing at startup,
+ we don't launch it again next time, getting stuck in a crash loop.
+ */
+- (void) allSystemsGo: (NSTimer *) timer
+{
+ NSAssert (timer == crash_timer, @"crash timer screwed up");
+ crash_timer = 0;
+
+ NSUserDefaults *prefs = [NSUserDefaults standardUserDefaults];
+ [prefs setBool:YES forKey:@"wasRunning"];
+ [prefs synchronize];
+}
+#endif // USE_IPHONE
+
+
- (void) startAnimation
{
NSAssert(![self isAnimating], @"already animating");
NSAssert(!initted_p && !xdata, @"already initialized");
+
+ // See comment in render_x11() for why this value is important:
+ [self setAnimationTimeInterval: 1.0 / 120.0];
+
[super startAnimation];
/* We can't draw on the window from this method, so we actually do the
initialization of the screen saver (xsft->init_cb) in the first call
to animateOneFrame() instead.
*/
+
+# ifdef USE_IPHONE
+ if (crash_timer)
+ [crash_timer invalidate];
+
+ NSUserDefaults *prefs = [NSUserDefaults standardUserDefaults];
+ [prefs removeObjectForKey:@"wasRunning"];
+ [prefs synchronize];
+
+ crash_timer = [NSTimer scheduledTimerWithTimeInterval: 5
+ target:self
+ selector:@selector(allSystemsGo:)
+ userInfo:nil
+ repeats:NO];
+
+# endif // USE_IPHONE
+
+ // Never automatically turn the screen off if we are docked,
+ // and an animation is running.
+ //
+# ifdef USE_IPHONE
+ [UIApplication sharedApplication].idleTimerDisabled =
+ ([UIDevice currentDevice].batteryState != UIDeviceBatteryStateUnplugged);
+ [[UIApplication sharedApplication]
+ setStatusBarHidden:YES withAnimation:UIStatusBarAnimationNone];
+# endif
}
+
- (void)stopAnimation
{
NSAssert([self isAnimating], @"not animating");
xsft->free_cb (xdpy, xwindow, xdata);
[self unlockFocus];
+ // xdpy must be freed before dealloc is called, because xdpy owns a
+ // circular reference to the parent XScreenSaverView.
+ jwxyz_free_display (xdpy);
+ xdpy = NULL;
+ xwindow = NULL;
+
// setup_p = NO; // #### wait, do we need this?
initted_p = NO;
xdata = 0;
}
+# ifdef USE_IPHONE
+ if (crash_timer)
+ [crash_timer invalidate];
+ crash_timer = 0;
+ NSUserDefaults *prefs = [NSUserDefaults standardUserDefaults];
+ [prefs removeObjectForKey:@"wasRunning"];
+ [prefs synchronize];
+# endif // USE_IPHONE
+
[super stopAnimation];
+
+ // When an animation is no longer running (e.g., looking at the list)
+ // then it's ok to power off the screen when docked.
+ //
+# ifdef USE_IPHONE
+ [UIApplication sharedApplication].idleTimerDisabled = NO;
+ [[UIApplication sharedApplication]
+ setStatusBarHidden:NO withAnimation:UIStatusBarAnimationNone];
+# endif
}
static void
screenhack_do_fps (Display *dpy, Window w, fps_state *fpst, void *closure)
{
- fps_compute (fpst, 0);
+ fps_compute (fpst, 0, -1);
fps_draw (fpst);
}
-- (void) animateOneFrame
+#ifdef USE_IPHONE
+
+/* On iPhones with Retina displays, we can draw the savers in "real"
+ pixels, and that works great. The 320x480 "point" screen is really
+ a 640x960 *pixel* screen. However, Retina iPads have 768x1024
+ point screens which are 1536x2048 pixels, and apparently that's
+ enough pixels that copying those bits to the screen is slow. Like,
+ drops us from 15fps to 7fps. So, on Retina iPads, we don't draw in
+ real pixels. This will probably make the savers look better
+ anyway, since that's a higher resolution than most desktop monitors
+ have even today. (This is only true for X11 programs, not GL
+ programs. Those are fine at full rez.)
+
+ This method is overridden in XScreenSaverGLView, since this kludge
+ isn't necessary for GL programs, being resolution independent by
+ nature.
+ */
+- (CGFloat) hackedContentScaleFactor
{
+ GLfloat s = [self contentScaleFactor];
+ if (initial_bounds.width >= 1024 ||
+ initial_bounds.height >= 1024)
+ s = 1;
+ return s;
+}
+
+
+static GLfloat _global_rot_current_angle_kludge;
+
+double current_device_rotation (void)
+{
+ return -_global_rot_current_angle_kludge;
+}
+
+
+- (void) hackRotation
+{
+ if (rotation_ratio >= 0) { // in the midst of a rotation animation
+
+# define CLAMP180(N) while (N < 0) N += 360; while (N > 180) N -= 360
+ GLfloat f = angle_from;
+ GLfloat t = angle_to;
+ CLAMP180(f);
+ CLAMP180(t);
+ GLfloat dist = -(t-f);
+ CLAMP180(dist);
+
+ // Intermediate angle.
+ rot_current_angle = f - rotation_ratio * dist;
+
+ // Intermediate frame size.
+ rot_current_size.width = rot_from.width +
+ rotation_ratio * (rot_to.width - rot_from.width);
+ rot_current_size.height = rot_from.height +
+ rotation_ratio * (rot_to.height - rot_from.height);
+
+ // Tick animation. Complete rotation in 1/6th sec.
+ double now = double_time();
+ double duration = 1/6.0;
+ rotation_ratio = 1 - ((rot_start_time + duration - now) / duration);
+
+ if (rotation_ratio > 1) { // Done animating.
+ orientation = new_orientation;
+ rot_current_angle = angle_to;
+ rot_current_size = rot_to;
+ rotation_ratio = -1;
+
+ // Check orientation again in case we rotated again while rotating:
+ // this is a no-op if nothing has changed.
+ [self didRotate:nil];
+ }
+ } else { // Not animating a rotation.
+ rot_current_angle = angle_to;
+ rot_current_size = rot_to;
+ }
+
+ CLAMP180(rot_current_angle);
+ _global_rot_current_angle_kludge = rot_current_angle;
+
+# undef CLAMP180
+
+ double s = [self hackedContentScaleFactor];
+ if (!ignore_rotation_p &&
+ /* rotation_ratio && */
+ ((int) backbuffer_size.width != (int) (s * rot_current_size.width) ||
+ (int) backbuffer_size.height != (int) (s * rot_current_size.height)))
+ [self resize_x11];
+}
+
+
+- (void)alertView:(UIAlertView *)av clickedButtonAtIndex:(NSInteger)i
+{
+ if (i == 0) exit (-1); // Cancel
+ [self stopAndClose:NO]; // Keep going
+}
+
+- (void) handleException: (NSException *)e
+{
+ NSLog (@"Caught exception: %@", e);
+ [[[UIAlertView alloc] initWithTitle:
+ [NSString stringWithFormat: @"%s crashed!",
+ xsft->progclass]
+ message:
+ [NSString stringWithFormat:
+ @"The error message was:"
+ "\n\n%@\n\n"
+ "If it keeps crashing, try "
+ "resetting its options.",
+ e]
+ delegate: self
+ cancelButtonTitle: @"Exit"
+ otherButtonTitles: @"Keep going", nil]
+ show];
+ [self stopAnimation];
+}
+
+#endif // USE_IPHONE
+
+
+#ifdef USE_BACKBUFFER
+
+/* Create a bitmap context into which we render everything.
+ If the desired size has changed, re-created it.
+ */
+- (void) createBackbuffer
+{
+# ifdef USE_IPHONE
+ double s = [self hackedContentScaleFactor];
+ CGSize rotsize = ignore_rotation_p ? initial_bounds : rot_current_size;
+ int new_w = s * rotsize.width;
+ int new_h = s * rotsize.height;
+# else
+ int new_w = [self bounds].size.width;
+ int new_h = [self bounds].size.height;
+# endif
+
+ // Colorspaces and CGContexts only happen with non-GL hacks.
+ if (colorspace)
+ CGColorSpaceRelease (colorspace);
+# ifdef BACKBUFFER_CGCONTEXT
+ if (window_ctx)
+ CGContextRelease (window_ctx);
+# endif
+
+ NSWindow *window = [self window];
+
+ if (window && xdpy) {
+ [self lockFocus];
+
+# if defined(BACKBUFFER_CGCONTEXT)
+ // TODO: This was borrowed from jwxyz_window_resized, and should
+ // probably be refactored.
+
+ // Figure out which screen the window is currently on.
+ CGDirectDisplayID cgdpy = 0;
+
+ {
+// int wx, wy;
+// TODO: XTranslateCoordinates is returning (0,1200) on my system.
+// Is this right?
+// In any case, those weren't valid coordinates for CGGetDisplaysWithPoint.
+// XTranslateCoordinates (xdpy, xwindow, NULL, 0, 0, &wx, &wy, NULL);
+// p.x = wx;
+// p.y = wy;
+
+ NSPoint p0 = {0, 0};
+ p0 = [window convertBaseToScreen:p0];
+ CGPoint p = {p0.x, p0.y};
+ CGDisplayCount n;
+ CGGetDisplaysWithPoint (p, 1, &cgdpy, &n);
+ NSAssert (cgdpy, @"unable to find CGDisplay");
+ }
+
+ {
+ // Figure out this screen's colorspace, and use that for every CGImage.
+ //
+ CMProfileRef profile = 0;
+
+ // CMGetProfileByAVID is deprecated as of OS X 10.6, but there's no
+ // documented replacement as of OS X 10.9.
+ // http://lists.apple.com/archives/colorsync-dev/2012/Nov/msg00001.html
+ CMGetProfileByAVID ((CMDisplayIDType) cgdpy, &profile);
+ NSAssert (profile, @"unable to find colorspace profile");
+ colorspace = CGColorSpaceCreateWithPlatformColorSpace (profile);
+ NSAssert (colorspace, @"unable to find colorspace");
+ }
+# elif defined(BACKBUFFER_CALAYER)
+ // Was apparently faster until 10.9.
+ colorspace = CGColorSpaceCreateDeviceRGB ();
+# endif // BACKBUFFER_CALAYER
+
+# ifdef BACKBUFFER_CGCONTEXT
+ window_ctx = [[window graphicsContext] graphicsPort];
+ CGContextRetain (window_ctx);
+# endif // BACKBUFFER_CGCONTEXT
+
+ [self unlockFocus];
+ } else {
+# ifdef BACKBUFFER_CGCONTEXT
+ window_ctx = NULL;
+# endif // BACKBUFFER_CGCONTEXT
+ colorspace = CGColorSpaceCreateDeviceRGB();
+ }
+
+ if (backbuffer &&
+ backbuffer_size.width == new_w &&
+ backbuffer_size.height == new_h)
+ return;
+
+ CGSize osize = backbuffer_size;
+ CGContextRef ob = backbuffer;
+
+ backbuffer_size.width = new_w;
+ backbuffer_size.height = new_h;
+
+ backbuffer = CGBitmapContextCreate (NULL,
+ backbuffer_size.width,
+ backbuffer_size.height,
+ 8,
+ backbuffer_size.width * 4,
+ colorspace,
+ // kCGImageAlphaPremultipliedLast
+ (kCGImageAlphaNoneSkipFirst |
+ kCGBitmapByteOrder32Host)
+ );
+ NSAssert (backbuffer, @"unable to allocate back buffer");
+
+ // Clear it.
+ CGRect r;
+ r.origin.x = r.origin.y = 0;
+ r.size = backbuffer_size;
+ CGContextSetGrayFillColor (backbuffer, 0, 1);
+ CGContextFillRect (backbuffer, r);
+
+ if (ob) {
+ // Restore old bits, as much as possible, to the X11 upper left origin.
+ CGRect rect;
+ rect.origin.x = 0;
+ rect.origin.y = (backbuffer_size.height - osize.height);
+ rect.size = osize;
+ CGImageRef img = CGBitmapContextCreateImage (ob);
+ CGContextDrawImage (backbuffer, rect, img);
+ CGImageRelease (img);
+ CGContextRelease (ob);
+ }
+}
+
+#endif // USE_BACKBUFFER
+
+
+/* Inform X11 that the size of our window has changed.
+ */
+- (void) resize_x11
+{
+ if (!xwindow) return; // early
+
+# ifdef USE_BACKBUFFER
+ [self createBackbuffer];
+ jwxyz_window_resized (xdpy, xwindow,
+ 0, 0,
+ backbuffer_size.width, backbuffer_size.height,
+ backbuffer);
+# else // !USE_BACKBUFFER
+ NSRect r = [self frame]; // ignoring rotation is closer
+ r.size = [self bounds].size; // to what XGetGeometry expects.
+ jwxyz_window_resized (xdpy, xwindow,
+ r.origin.x, r.origin.y,
+ r.size.width, r.size.height,
+ 0);
+# endif // !USE_BACKBUFFER
+
+ // Next time render_x11 is called, run the saver's reshape_cb.
+ resized_p = YES;
+}
+
+
+- (void) render_x11
+{
+# ifdef USE_IPHONE
+ @try {
+
+ if (orientation == UIDeviceOrientationUnknown)
+ [self didRotate:nil];
+ [self hackRotation];
+# endif
+
if (!initted_p) {
if (! xdpy) {
- xdpy = jwxyz_make_display (self);
+# ifdef USE_BACKBUFFER
+ NSAssert (backbuffer, @"no back buffer");
+ xdpy = jwxyz_make_display (self, backbuffer);
+# else
+ xdpy = jwxyz_make_display (self, 0);
+# endif
xwindow = XRootWindow (xdpy, 0);
+
+# ifdef USE_IPHONE
+ /* Some X11 hacks (fluidballs) want to ignore all rotation events. */
+ ignore_rotation_p =
+ get_boolean_resource (xdpy, "ignoreRotation", "IgnoreRotation");
+# endif // USE_IPHONE
+
+ [self resize_x11];
}
if (!setup_p) {
initted_p = YES;
resized_p = NO;
NSAssert(!xdata, @"xdata already initialized");
-
+
+
# undef ya_rand_init
ya_rand_init (0);
"background", "Background"));
XClearWindow (xdpy, xwindow);
+# ifndef USE_IPHONE
[[self window] setAcceptsMouseMovedEvents:YES];
+# endif
/* In MacOS 10.5, this enables "QuartzGL", meaning that the Quartz
drawing primitives will run on the GPU instead of the CPU.
(void *(*) (Display *, Window, void *)) xsft->init_cb;
xdata = init_cb (xdpy, xwindow, xsft->setup_arg);
+ // NSAssert(xdata, @"no xdata from init");
+ if (! xdata) abort();
if (get_boolean_resource (xdpy, "doFPS", "DoFPS")) {
fpst = fps_init (xdpy, xwindow);
if (! xsft->fps_cb) xsft->fps_cb = screenhack_do_fps;
+ } else {
+ xsft->fps_cb = 0;
}
+
+ [self checkForUpdates];
}
+
/* I don't understand why we have to do this *every frame*, but we do,
or else the cursor comes back on.
*/
+# ifndef USE_IPHONE
if (![self isPreview])
[NSCursor setHiddenUntilMouseMoves:YES];
+# endif
if (fpst)
/* This is just a guess, but the -fps code wants to know how long
we were sleeping between frames.
*/
- unsigned long usecs = 1000000 * [self animationTimeInterval];
+ long usecs = 1000000 * [self animationTimeInterval];
usecs -= 200; // caller apparently sleeps for slightly less sometimes...
+ if (usecs < 0) usecs = 0;
fps_slept (fpst, usecs);
}
- /* It turns out that [ScreenSaverView setAnimationTimeInterval] does nothing.
- This is bad, because some of the screen hacks want to delay for long
- periods (like 5 seconds or a minute!) between frames, and running them
- all at 60 FPS is no good.
-
- So, we don't use setAnimationTimeInterval, and just let the framework call
- us whenever. But, we only invoke the screen hack's "draw frame" method
- when enough time has expired.
+ /* It turns out that on some systems (possibly only 10.5 and older?)
+ [ScreenSaverView setAnimationTimeInterval] does nothing. This means
+ that we cannot rely on it.
+
+ Some of the screen hacks want to delay for long periods, and letting the
+ framework run the update function at 30 FPS when it really wanted half a
+ minute between frames would be bad. So instead, we assume that the
+ framework's animation timer might fire whenever, but we only invoke the
+ screen hack's "draw frame" method when enough time has expired.
This means two extra calls to gettimeofday() per frame. For fast-cycling
screen savers, that might actually slow them down. Oh well.
- #### Also, we do not run the draw callback faster than the system's
- animationTimeInterval, so if any savers are pickier about timing
- than that, this may slow them down too much. If that's a problem,
- then we could call draw_cb in a loop here (with usleep) until the
- next call would put us past animationTimeInterval... But a better
- approach would probably be to just change the saver to not do that.
+ A side-effect of this is that it's not possible for a saver to request
+ an animation interval that is faster than animationTimeInterval.
+
+ HOWEVER! On modern systems where setAnimationTimeInterval is *not*
+ ignored, it's important that it be faster than 30 FPS. 120 FPS is good.
+
+ An NSTimer won't fire if the timer is already running the invocation
+ function from a previous firing. So, if we use a 30 FPS
+ animationTimeInterval (33333 µs) and a screenhack takes 40000 µs for a
+ frame, there will be a 26666 µs delay until the next frame, 66666 µs
+ after the beginning of the current frame. In other words, 25 FPS
+ becomes 15 FPS.
+
+ Frame rates tend to snap to values of 30/N, where N is a positive
+ integer, i.e. 30 FPS, 15 FPS, 10, 7.5, 6. And the 'snapped' frame rate
+ is rounded down from what it would normally be.
+
+ So if we set animationTimeInterval to 1/120 instead of 1/30, frame rates
+ become values of 60/N, 120/N, or 240/N, with coarser or finer frame rate
+ steps for higher or lower animation time intervals respectively.
*/
struct timeval tv;
gettimeofday (&tv, 0);
[self prepareContext];
if (resized_p) {
- // We do this here instead of in setFrameSize so that all the
+ // We do this here instead of in setFrame so that all the
// Xlib drawing takes place under the animation timer.
[self resizeContext];
- NSRect r = [self frame];
+ NSRect r;
+# ifndef USE_BACKBUFFER
+ r = [self bounds];
+# else // USE_BACKBUFFER
+ r.origin.x = 0;
+ r.origin.y = 0;
+ r.size.width = backbuffer_size.width;
+ r.size.height = backbuffer_size.height;
+# endif // USE_BACKBUFFER
+
xsft->reshape_cb (xdpy, xwindow, xdata, r.size.width, r.size.height);
resized_p = NO;
}
//
jwxyz_sources_run (display_sources_data (xdpy));
+
// And finally:
//
+# ifndef USE_IPHONE
NSDisableScreenUpdates();
+# endif
+ // NSAssert(xdata, @"no xdata when drawing");
+ if (! xdata) abort();
unsigned long delay = xsft->draw_cb (xdpy, xwindow, xdata);
if (fpst) xsft->fps_cb (xdpy, xwindow, fpst, xdata);
- XSync (xdpy, 0);
+# ifndef USE_IPHONE
NSEnableScreenUpdates();
+# endif
gettimeofday (&tv, 0);
now = tv.tv_sec + (tv.tv_usec / 1000000.0);
next_frame_time = now + (delay / 1000000.0);
+# ifdef USE_IPHONE // Allow savers on the iPhone to run full-tilt.
+ if (delay < [self animationTimeInterval])
+ [self setAnimationTimeInterval:(delay / 1000000.0)];
+# endif
# ifdef DO_GC_HACKERY
/* Current theory is that the 10.6 garbage collector sucks in the
}
}
# endif // DO_GC_HACKERY
+
+# ifdef USE_IPHONE
+ }
+ @catch (NSException *e) {
+ [self handleException: e];
+ }
+# endif // USE_IPHONE
}
+/* drawRect always does nothing, and animateOneFrame renders bits to the
+ screen. This is (now) true of both X11 and GL on both MacOS and iOS.
+ */
+
- (void)drawRect:(NSRect)rect
{
if (xwindow) // clear to the X window's bg color, not necessarily black.
}
-- (void) setFrameSize:(NSSize) newSize
+#ifndef USE_BACKBUFFER
+
+- (void) animateOneFrame
{
- [super setFrameSize:newSize];
- if ([self isAnimating]) {
- resized_p = YES;
+ [self render_x11];
+ jwxyz_flush_context(xdpy);
+}
+
+#else // USE_BACKBUFFER
+
+- (void) animateOneFrame
+{
+ // Render X11 into the backing store bitmap...
+
+ NSAssert (backbuffer, @"no back buffer");
+
+# ifdef USE_IPHONE
+ UIGraphicsPushContext (backbuffer);
+# endif
+
+ [self render_x11];
+
+# ifdef USE_IPHONE
+ UIGraphicsPopContext();
+# endif
+
+# ifdef USE_IPHONE
+ // Then compute the transformations for rotation.
+ double hs = [self hackedContentScaleFactor];
+ double s = [self contentScaleFactor];
+
+ // The rotation origin for layer.affineTransform is in the center already.
+ CGAffineTransform t = ignore_rotation_p ?
+ CGAffineTransformIdentity :
+ CGAffineTransformMakeRotation (rot_current_angle / (180.0 / M_PI));
+
+ CGFloat f = s / hs;
+ self.layer.affineTransform = CGAffineTransformScale(t, f, f);
+
+ CGRect bounds;
+ bounds.origin.x = 0;
+ bounds.origin.y = 0;
+ bounds.size.width = backbuffer_size.width / s;
+ bounds.size.height = backbuffer_size.height / s;
+ self.layer.bounds = bounds;
+# endif // USE_IPHONE
+
+# if defined(BACKBUFFER_CALAYER)
+ [self.layer setNeedsDisplay];
+# elif defined(BACKBUFFER_CGCONTEXT)
+ size_t
+ w = CGBitmapContextGetWidth (backbuffer),
+ h = CGBitmapContextGetHeight (backbuffer);
+
+ size_t bpl = CGBitmapContextGetBytesPerRow (backbuffer);
+ CGDataProviderRef prov = CGDataProviderCreateWithData (NULL,
+ CGBitmapContextGetData(backbuffer),
+ bpl * h,
+ NULL);
+
+
+ CGImageRef img = CGImageCreate (w, h,
+ 8, 32,
+ CGBitmapContextGetBytesPerRow(backbuffer),
+ colorspace,
+ CGBitmapContextGetBitmapInfo(backbuffer),
+ prov, NULL, NO,
+ kCGRenderingIntentDefault);
+
+ CGDataProviderRelease (prov);
+
+ CGRect rect;
+ rect.origin.x = 0;
+ rect.origin.y = 0;
+ rect.size = backbuffer_size;
+ CGContextDrawImage (window_ctx, rect, img);
+
+ CGImageRelease (img);
+
+ CGContextFlush (window_ctx);
+# endif // BACKBUFFER_CGCONTEXT
+}
+
+# ifdef BACKBUFFER_CALAYER
+
+- (void) drawLayer:(CALayer *)layer inContext:(CGContextRef)ctx
+{
+ // This "isn't safe" if NULL is passed to CGBitmapCreateContext before iOS 4.
+ char *dest_data = (char *)CGBitmapContextGetData (ctx);
+
+ // The CGContext here is normally upside-down on iOS.
+ if (dest_data &&
+ CGBitmapContextGetBitmapInfo (ctx) ==
+ (kCGImageAlphaNoneSkipFirst | kCGBitmapByteOrder32Host)
+# ifdef USE_IPHONE
+ && CGContextGetCTM (ctx).d < 0
+# endif // USE_IPHONE
+ )
+ {
+ size_t dest_height = CGBitmapContextGetHeight (ctx);
+ size_t dest_bpr = CGBitmapContextGetBytesPerRow (ctx);
+ size_t src_height = CGBitmapContextGetHeight (backbuffer);
+ size_t src_bpr = CGBitmapContextGetBytesPerRow (backbuffer);
+ char *src_data = (char *)CGBitmapContextGetData (backbuffer);
+
+ size_t height = src_height < dest_height ? src_height : dest_height;
+
+ if (src_bpr == dest_bpr) {
+ // iPad 1: 4.0 ms, iPad 2: 6.7 ms
+ memcpy (dest_data, src_data, src_bpr * height);
+ } else {
+ // iPad 1: 4.6 ms, iPad 2: 7.2 ms
+ size_t bpr = src_bpr < dest_bpr ? src_bpr : dest_bpr;
+ while (height) {
+ memcpy (dest_data, src_data, bpr);
+ --height;
+ src_data += src_bpr;
+ dest_data += dest_bpr;
+ }
+ }
+ } else {
+
+ // iPad 1: 9.6 ms, iPad 2: 12.1 ms
+
+# ifdef USE_IPHONE
+ CGContextScaleCTM (ctx, 1, -1);
+ CGFloat s = [self contentScaleFactor];
+ CGFloat hs = [self hackedContentScaleFactor];
+ CGContextTranslateCTM (ctx, 0, -backbuffer_size.height * hs / s);
+# endif // USE_IPHONE
+
+ CGImageRef img = CGBitmapContextCreateImage (backbuffer);
+ CGContextDrawImage (ctx, self.layer.bounds, img);
+ CGImageRelease (img);
}
}
+# endif // BACKBUFFER_CALAYER
+
+#endif // USE_BACKBUFFER
+
+
- (void) setFrame:(NSRect) newRect
{
[super setFrame:newRect];
- if (xwindow) // inform Xlib that the window has changed.
- jwxyz_window_resized (xdpy, xwindow);
+
+ if (xwindow) // inform Xlib that the window has changed now.
+ [self resize_x11];
}
+# ifndef USE_IPHONE // Doesn't exist on iOS
+- (void) setFrameSize:(NSSize) newSize
+{
+ [super setFrameSize:newSize];
+ if (xwindow)
+ [self resize_x11];
+}
+# endif // !USE_IPHONE
+
+
+(BOOL) performGammaFade
{
return YES;
return YES;
}
++ (NSString *) decompressXML: (NSData *)data
+{
+ if (! data) return 0;
+ BOOL compressed_p = !!strncmp ((const char *) data.bytes, "<?xml", 5);
+
+ // If it's not already XML, decompress it.
+ NSAssert (compressed_p, @"xml isn't compressed");
+ if (compressed_p) {
+ NSMutableData *data2 = 0;
+ int ret = -1;
+ z_stream zs;
+ memset (&zs, 0, sizeof(zs));
+ ret = inflateInit2 (&zs, 16 + MAX_WBITS);
+ if (ret == Z_OK) {
+ UInt32 usize = * (UInt32 *) (data.bytes + data.length - 4);
+ data2 = [NSMutableData dataWithLength: usize];
+ zs.next_in = (Bytef *) data.bytes;
+ zs.avail_in = (uint) data.length;
+ zs.next_out = (Bytef *) data2.bytes;
+ zs.avail_out = (uint) data2.length;
+ ret = inflate (&zs, Z_FINISH);
+ inflateEnd (&zs);
+ }
+ if (ret == Z_OK || ret == Z_STREAM_END)
+ data = data2;
+ else
+ NSAssert2 (0, @"gunzip error: %d: %s",
+ ret, (zs.msg ? zs.msg : "<null>"));
+ }
+
+ return [[NSString alloc] initWithData:data encoding:NSUTF8StringEncoding];
+}
+
+
+#ifndef USE_IPHONE
- (NSWindow *) configureSheet
+#else
+- (UIViewController *) configureView
+#endif
{
NSBundle *bundle = [NSBundle bundleForClass:[self class]];
NSString *file = [NSString stringWithCString:xsft->progclass
- encoding:NSUTF8StringEncoding];
+ encoding:NSISOLatin1StringEncoding];
file = [file lowercaseString];
NSString *path = [bundle pathForResource:file ofType:@"xml"];
if (!path) {
return nil;
}
- NSWindow *sheet = [[XScreenSaverConfigSheet alloc]
- initWithXMLFile:path
- options:xsft->options
- controller:[prefsReader userDefaultsController]];
-
+# ifdef USE_IPHONE
+ UIViewController *sheet;
+# else // !USE_IPHONE
+ NSWindow *sheet;
+# endif // !USE_IPHONE
+
+ NSData *xmld = [NSData dataWithContentsOfFile:path];
+ NSString *xml = [[self class] decompressXML: xmld];
+ sheet = [[XScreenSaverConfigSheet alloc]
+ initWithXML:[xml dataUsingEncoding:NSUTF8StringEncoding]
+ options:xsft->options
+ controller:[prefsReader userDefaultsController]
+ globalController:[prefsReader globalDefaultsController]
+ defaults:[prefsReader defaultOptions]];
+
// #### am I expected to retain this, or not? wtf.
// I thought not, but if I don't do this, we (sometimes) crash.
- [sheet retain];
+ // #### Analyze says "potential leak of an object stored into sheet"
+ // [sheet retain];
return sheet;
}
+- (NSUserDefaultsController *) userDefaultsController
+{
+ return [prefsReader userDefaultsController];
+}
+
+
/* Announce our willingness to accept keyboard input.
-*/
+ */
- (BOOL)acceptsFirstResponder
{
return YES;
}
+#ifndef USE_IPHONE
+
/* Convert an NSEvent into an XEvent, and pass it along.
Returns YES if it was handled.
*/
![self isAnimating] ||
!initted_p)
return NO;
-
+
XEvent xe;
memset (&xe, 0, sizeof(xe));
NSPoint p = [[[e window] contentView] convertPoint:[e locationInWindow]
toView:self];
- int x = p.x;
- int y = [self frame].size.height - p.y;
-
+# ifdef USE_IPHONE
+ double s = [self hackedContentScaleFactor];
+# else
+ int s = 1;
+# endif
+ int x = s * p.x;
+ int y = s * ([self bounds].size.height - p.y);
+
xe.xany.type = type;
switch (type) {
case ButtonPress:
case KeyPress:
case KeyRelease:
{
- NSString *nss = [e characters];
- const char *s = [nss cStringUsingEncoding:NSISOLatin1StringEncoding];
- xe.xkey.keycode = (s && *s ? *s : 0);
+ NSString *ns = (([e type] == NSFlagsChanged) ? 0 :
+ [e charactersIgnoringModifiers]);
+ KeySym k = 0;
+
+ if (!ns || [ns length] == 0) // dead key
+ {
+ // Cocoa hides the difference between left and right keys.
+ // Also we only get KeyPress events for these, no KeyRelease
+ // (unless we hack the mod state manually. Bleh.)
+ //
+ if (flags & NSAlphaShiftKeyMask) k = XK_Caps_Lock;
+ else if (flags & NSShiftKeyMask) k = XK_Shift_L;
+ else if (flags & NSControlKeyMask) k = XK_Control_L;
+ else if (flags & NSAlternateKeyMask) k = XK_Alt_L;
+ else if (flags & NSCommandKeyMask) k = XK_Meta_L;
+ }
+ else if ([ns length] == 1) // real key
+ {
+ switch ([ns characterAtIndex:0]) {
+ case NSLeftArrowFunctionKey: k = XK_Left; break;
+ case NSRightArrowFunctionKey: k = XK_Right; break;
+ case NSUpArrowFunctionKey: k = XK_Up; break;
+ case NSDownArrowFunctionKey: k = XK_Down; break;
+ case NSPageUpFunctionKey: k = XK_Page_Up; break;
+ case NSPageDownFunctionKey: k = XK_Page_Down; break;
+ case NSHomeFunctionKey: k = XK_Home; break;
+ case NSPrevFunctionKey: k = XK_Prior; break;
+ case NSNextFunctionKey: k = XK_Next; break;
+ case NSBeginFunctionKey: k = XK_Begin; break;
+ case NSEndFunctionKey: k = XK_End; break;
+ default:
+ {
+ const char *s =
+ [ns cStringUsingEncoding:NSISOLatin1StringEncoding];
+ k = (s && *s ? *s : 0);
+ }
+ break;
+ }
+ }
+
+ if (! k) return YES; // E.g., "KeyRelease XK_Shift_L"
+
+ xe.xkey.keycode = k;
xe.xkey.state = state;
break;
}
default:
- abort();
+ NSAssert1 (0, @"unknown X11 event type: %d", type);
+ break;
}
[self lockFocus];
[super keyUp:e];
}
+- (void) flagsChanged: (NSEvent *) e
+{
+ if (! [self doEvent:e type:KeyPress])
+ [super flagsChanged:e];
+}
+
+#else // USE_IPHONE
+
+
+- (void) stopAndClose:(Bool)relaunch_p
+{
+ if ([self isAnimating])
+ [self stopAnimation];
+
+ /* Need to make the SaverListController be the firstResponder again
+ so that it can continue to receive its own shake events. I
+ suppose that this abstraction-breakage means that I'm adding
+ XScreenSaverView to the UINavigationController wrong...
+ */
+ UIViewController *v = [[self window] rootViewController];
+ if ([v isKindOfClass: [UINavigationController class]]) {
+ UINavigationController *n = (UINavigationController *) v;
+ [[n topViewController] becomeFirstResponder];
+ }
+
+ UIView *fader = [self superview]; // the "backgroundView" view is our parent
+
+ if (relaunch_p) { // Fake a shake on the SaverListController.
+ // Why is [self window] sometimes null here?
+ UIWindow *w = [[UIApplication sharedApplication] keyWindow];
+ UIViewController *v = [w rootViewController];
+ if ([v isKindOfClass: [UINavigationController class]]) {
+ UINavigationController *n = (UINavigationController *) v;
+ [[n topViewController] motionEnded: UIEventSubtypeMotionShake
+ withEvent: nil];
+ }
+ } else { // Not launching another, animate our return to the list.
+ [UIView animateWithDuration: 0.5
+ animations:^{ fader.alpha = 0.0; }
+ completion:^(BOOL finished) {
+ [fader removeFromSuperview];
+ fader.alpha = 1.0;
+ }];
+ }
+}
+
+
+/* Called after the device's orientation has changed.
+
+ Note: we could include a subclass of UIViewController which
+ contains a shouldAutorotateToInterfaceOrientation method that
+ returns YES, in which case Core Animation would auto-rotate our
+ View for us in response to rotation events... but, that interacts
+ badly with the EAGLContext -- if you introduce Core Animation into
+ the path, the OpenGL pipeline probably falls back on software
+ rendering and performance goes to hell. Also, the scaling and
+ rotation that Core Animation does interacts incorrectly with the GL
+ context anyway.
+
+ So, we have to hack the rotation animation manually, in the GL world.
+
+ Possibly XScreenSaverView should use Core Animation, and
+ XScreenSaverGLView should override that.
+ */
+- (void)didRotate:(NSNotification *)notification
+{
+ UIDeviceOrientation current = [[UIDevice currentDevice] orientation];
+
+ /* If the simulator starts up in the rotated position, sometimes
+ the UIDevice says we're in Portrait when we're not -- but it
+ turns out that the UINavigationController knows what's up!
+ So get it from there.
+ */
+ if (current == UIDeviceOrientationUnknown) {
+ switch ([[[self window] rootViewController] interfaceOrientation]) {
+ case UIInterfaceOrientationPortrait:
+ current = UIDeviceOrientationPortrait;
+ break;
+ case UIInterfaceOrientationPortraitUpsideDown:
+ current = UIDeviceOrientationPortraitUpsideDown;
+ break;
+ case UIInterfaceOrientationLandscapeLeft: // It's opposite day
+ current = UIDeviceOrientationLandscapeRight;
+ break;
+ case UIInterfaceOrientationLandscapeRight:
+ current = UIDeviceOrientationLandscapeLeft;
+ break;
+ default:
+ break;
+ }
+ }
+
+ /* On the iPad (but not iPhone 3GS, or the simulator) sometimes we get
+ an orientation change event with an unknown orientation. Those seem
+ to always be immediately followed by another orientation change with
+ a *real* orientation change, so let's try just ignoring those bogus
+ ones and hoping that the real one comes in shortly...
+ */
+ if (current == UIDeviceOrientationUnknown)
+ return;
+
+ if (rotation_ratio >= 0) return; // in the midst of rotation animation
+ if (orientation == current) return; // no change
+
+ // When transitioning to FaceUp or FaceDown, pretend there was no change.
+ if (current == UIDeviceOrientationFaceUp ||
+ current == UIDeviceOrientationFaceDown)
+ return;
+
+ new_orientation = current; // current animation target
+ rotation_ratio = 0; // start animating
+ rot_start_time = double_time();
+
+ switch (orientation) {
+ case UIDeviceOrientationLandscapeLeft: angle_from = 90; break;
+ case UIDeviceOrientationLandscapeRight: angle_from = 270; break;
+ case UIDeviceOrientationPortraitUpsideDown: angle_from = 180; break;
+ default: angle_from = 0; break;
+ }
+
+ switch (new_orientation) {
+ case UIDeviceOrientationLandscapeLeft: angle_to = 90; break;
+ case UIDeviceOrientationLandscapeRight: angle_to = 270; break;
+ case UIDeviceOrientationPortraitUpsideDown: angle_to = 180; break;
+ default: angle_to = 0; break;
+ }
+
+ switch (orientation) {
+ case UIDeviceOrientationLandscapeRight: // from landscape
+ case UIDeviceOrientationLandscapeLeft:
+ rot_from.width = initial_bounds.height;
+ rot_from.height = initial_bounds.width;
+ break;
+ default: // from portrait
+ rot_from.width = initial_bounds.width;
+ rot_from.height = initial_bounds.height;
+ break;
+ }
+
+ switch (new_orientation) {
+ case UIDeviceOrientationLandscapeRight: // to landscape
+ case UIDeviceOrientationLandscapeLeft:
+ rot_to.width = initial_bounds.height;
+ rot_to.height = initial_bounds.width;
+ break;
+ default: // to portrait
+ rot_to.width = initial_bounds.width;
+ rot_to.height = initial_bounds.height;
+ break;
+ }
+
+ if (! initted_p) {
+ // If we've done a rotation but the saver hasn't been initialized yet,
+ // don't bother going through an X11 resize, but just do it now.
+ rot_start_time = 0; // dawn of time
+ [self hackRotation];
+ }
+}
+
+
+/* I believe we can't use UIGestureRecognizer for tracking touches
+ because UIPanGestureRecognizer doesn't give us enough detail in its
+ callbacks.
+
+ Currently we don't handle multi-touches (just the first touch) but
+ I'm leaving this comment here for future reference:
+
+ In the simulator, multi-touch sequences look like this:
+
+ touchesBegan [touchA, touchB]
+ touchesEnd [touchA, touchB]
+
+ But on real devices, sometimes you get that, but sometimes you get:
+
+ touchesBegan [touchA, touchB]
+ touchesEnd [touchB]
+ touchesEnd [touchA]
+
+ Or even
+
+ touchesBegan [touchA]
+ touchesBegan [touchB]
+ touchesEnd [touchA]
+ touchesEnd [touchB]
+
+ So the only way to properly detect a "pinch" gesture is to remember
+ the start-point of each touch as it comes in; and the end-point of
+ each touch as those come in; and only process the gesture once the
+ number of touchEnds matches the number of touchBegins.
+ */
+
+- (void) rotateMouse:(int)rot x:(int*)x y:(int *)y w:(int)w h:(int)h
+{
+ // This is a no-op unless contentScaleFactor != hackedContentScaleFactor.
+ // Currently, this is the iPad Retina only.
+ CGRect frame = [self bounds]; // Scale.
+ double s = [self hackedContentScaleFactor];
+ *x *= (backbuffer_size.width / frame.size.width) / s;
+ *y *= (backbuffer_size.height / frame.size.height) / s;
+}
+
+
+#if 0 // AudioToolbox/AudioToolbox.h
+- (void) beep
+{
+ // There's no way to play a standard system alert sound!
+ // We'd have to include our own WAV for that. Eh, fuck it.
+ AudioServicesPlaySystemSound (kSystemSoundID_Vibrate);
+# if TARGET_IPHONE_SIMULATOR
+ NSLog(@"BEEP"); // The sim doesn't vibrate.
+# endif
+}
+#endif
+
+
+/* We distinguish between taps and drags.
+ - Drags (down, motion, up) are sent to the saver to handle.
+ - Single-taps exit the saver.
+ This means a saver cannot respond to a single-tap. Only a few try to.
+ */
+
+- (void)touchesBegan:(NSSet *)touches withEvent:(UIEvent *)event
+{
+ // If they are trying to pinch, just do nothing.
+ if ([[event allTouches] count] > 1)
+ return;
+
+ tap_time = 0;
+
+ if (xsft->event_cb && xwindow) {
+ double s = [self hackedContentScaleFactor];
+ XEvent xe;
+ memset (&xe, 0, sizeof(xe));
+ int i = 0;
+ // #### 'frame' here or 'bounds'?
+ int w = s * [self frame].size.width;
+ int h = s * [self frame].size.height;
+ for (UITouch *touch in touches) {
+ CGPoint p = [touch locationInView:self];
+ xe.xany.type = ButtonPress;
+ xe.xbutton.button = i + 1;
+ xe.xbutton.button = i + 1;
+ xe.xbutton.x = s * p.x;
+ xe.xbutton.y = s * p.y;
+ [self rotateMouse: rot_current_angle
+ x: &xe.xbutton.x y: &xe.xbutton.y w: w h: h];
+ jwxyz_mouse_moved (xdpy, xwindow, xe.xbutton.x, xe.xbutton.y);
+
+ // Ignore return code: don't care whether the hack handled it.
+ xsft->event_cb (xdpy, xwindow, xdata, &xe);
+
+ // Remember when/where this was, to determine tap versus drag or hold.
+ tap_time = double_time();
+ tap_point = p;
+
+ i++;
+ break; // No pinches: only look at the first touch.
+ }
+ }
+}
+
+
+- (void)touchesEnded:(NSSet *)touches withEvent:(UIEvent *)event
+{
+ // If they are trying to pinch, just do nothing.
+ if ([[event allTouches] count] > 1)
+ return;
+
+ if (xsft->event_cb && xwindow) {
+ double s = [self hackedContentScaleFactor];
+ XEvent xe;
+ memset (&xe, 0, sizeof(xe));
+ int i = 0;
+ // #### 'frame' here or 'bounds'?
+ int w = s * [self frame].size.width;
+ int h = s * [self frame].size.height;
+ for (UITouch *touch in touches) {
+ CGPoint p = [touch locationInView:self];
+
+ // If the ButtonRelease came less than half a second after ButtonPress,
+ // and didn't move far, then this was a tap, not a drag or a hold.
+ // Interpret it as "exit".
+ //
+ double dist = sqrt (((p.x - tap_point.x) * (p.x - tap_point.x)) +
+ ((p.y - tap_point.y) * (p.y - tap_point.y)));
+ if (tap_time + 0.5 >= double_time() && dist < 20) {
+ [self stopAndClose:NO];
+ return;
+ }
+
+ xe.xany.type = ButtonRelease;
+ xe.xbutton.button = i + 1;
+ xe.xbutton.x = s * p.x;
+ xe.xbutton.y = s * p.y;
+ [self rotateMouse: rot_current_angle
+ x: &xe.xbutton.x y: &xe.xbutton.y w: w h: h];
+ jwxyz_mouse_moved (xdpy, xwindow, xe.xbutton.x, xe.xbutton.y);
+ xsft->event_cb (xdpy, xwindow, xdata, &xe);
+ i++;
+ break; // No pinches: only look at the first touch.
+ }
+ }
+}
+
+
+- (void)touchesMoved:(NSSet *)touches withEvent:(UIEvent *)event
+{
+ // If they are trying to pinch, just do nothing.
+ if ([[event allTouches] count] > 1)
+ return;
+
+ if (xsft->event_cb && xwindow) {
+ double s = [self hackedContentScaleFactor];
+ XEvent xe;
+ memset (&xe, 0, sizeof(xe));
+ int i = 0;
+ // #### 'frame' here or 'bounds'?
+ int w = s * [self frame].size.width;
+ int h = s * [self frame].size.height;
+ for (UITouch *touch in touches) {
+ CGPoint p = [touch locationInView:self];
+ xe.xany.type = MotionNotify;
+ xe.xmotion.x = s * p.x;
+ xe.xmotion.y = s * p.y;
+ [self rotateMouse: rot_current_angle
+ x: &xe.xbutton.x y: &xe.xbutton.y w: w h: h];
+ jwxyz_mouse_moved (xdpy, xwindow, xe.xmotion.x, xe.xmotion.y);
+ xsft->event_cb (xdpy, xwindow, xdata, &xe);
+ i++;
+ break; // No pinches: only look at the first touch.
+ }
+ }
+}
+
+
+/* We need this to respond to "shake" gestures
+ */
+- (BOOL)canBecomeFirstResponder
+{
+ return YES;
+}
+
+- (void)motionBegan:(UIEventSubtype)motion withEvent:(UIEvent *)event
+{
+}
+
+
+- (void)motionCancelled:(UIEventSubtype)motion withEvent:(UIEvent *)event
+{
+}
+
+/* Shake means exit and launch a new saver.
+ */
+- (void)motionEnded:(UIEventSubtype)motion withEvent:(UIEvent *)event
+{
+ [self stopAndClose:YES];
+}
+
+
+- (void)setScreenLocked:(BOOL)locked
+{
+ if (screenLocked == locked) return;
+ screenLocked = locked;
+ if (locked) {
+ if ([self isAnimating])
+ [self stopAnimation];
+ } else {
+ if (! [self isAnimating])
+ [self startAnimation];
+ }
+}
+
+#endif // USE_IPHONE
+
+
+- (void) checkForUpdates
+{
+# ifndef USE_IPHONE
+ // We only check once at startup, even if there are multiple screens,
+ // and even if this saver is running for many days.
+ // (Uh, except this doesn't work because this static isn't shared,
+ // even if we make it an exported global. Not sure why. Oh well.)
+ static BOOL checked_p = NO;
+ if (checked_p) return;
+ checked_p = YES;
+
+ // If it's off, don't bother running the updater. Otherwise, the
+ // updater will decide if it's time to hit the network.
+ if (! get_boolean_resource (xdpy,
+ SUSUEnableAutomaticChecksKey,
+ SUSUEnableAutomaticChecksKey))
+ return;
+
+ NSString *updater = @"XScreenSaverUpdater.app";
+
+ // There may be multiple copies of the updater: e.g., one in /Applications
+ // and one in the mounted installer DMG! It's important that we run the
+ // one from the disk and not the DMG, so search for the right one.
+ //
+ NSWorkspace *workspace = [NSWorkspace sharedWorkspace];
+ NSBundle *bundle = [NSBundle bundleForClass:[self class]];
+ NSArray *search =
+ @[[[bundle bundlePath] stringByDeletingLastPathComponent],
+ [@"~/Library/Screen Savers" stringByExpandingTildeInPath],
+ @"/Library/Screen Savers",
+ @"/System/Library/Screen Savers",
+ @"/Applications",
+ @"/Applications/Utilities"];
+ NSString *app_path = nil;
+ for (NSString *dir in search) {
+ NSString *p = [dir stringByAppendingPathComponent:updater];
+ if ([[NSFileManager defaultManager] fileExistsAtPath:p]) {
+ app_path = p;
+ break;
+ }
+ }
+
+ if (! app_path)
+ app_path = [workspace fullPathForApplication:updater];
+
+ if (app_path && [app_path hasPrefix:@"/Volumes/XScreenSaver "])
+ app_path = 0; // The DMG version will not do.
+
+ if (!app_path) {
+ NSLog(@"Unable to find %@", updater);
+ return;
+ }
+
+ NSError *err = nil;
+ if (! [workspace launchApplicationAtURL:[NSURL fileURLWithPath:app_path]
+ options:(NSWorkspaceLaunchWithoutAddingToRecents |
+ NSWorkspaceLaunchWithoutActivation |
+ NSWorkspaceLaunchAndHide)
+ configuration:nil
+ error:&err]) {
+ NSLog(@"Unable to launch %@: %@", app_path, err);
+ }
+
+# endif // !USE_IPHONE
+}
+
@end
get_prefsReader (Display *dpy)
{
XScreenSaverView *view = jwxyz_window_view (XRootWindow (dpy, 0));
- if (!view) abort();
+ if (!view) return 0;
return [view prefsReader];
}