So, from the comment discussion, it appears that you can't rely on
[UIDevice currentDevice].orientation until the orientation actually changes for the first time. If so, you could probably hack it by getting raw accelerometer readings.
#define kUpdateFrequency 30 // Hz
#define kUpdateCount 15 // So we init after half a second
#define kFilteringFactor (1.0f / kUpdateCount)
- (void)applicationDidFinishLaunching:(UIApplication *)app
[UIAccelerometer sharedAccelerometer].updateInterval = (1.0 / kUpdateFrequency);
[UIAccelerometer sharedAccelerometer].delegate = self;
accelerometerCounter = 0;
- (void)accelerometer:(UIAccelerometer *)accelerometer didAccelerate:(UIAcceleration *)accel
// Average out the first kUpdateCount readings
// acceleration_[xyz] are ivars typed float
acceleration_x = (float)accel.x * kFilteringFactor + acceleration_x * (1.0f - kFilteringFactor);
acceleration_y = (float)accel.y * kFilteringFactor + acceleration_y * (1.0f - kFilteringFactor);
acceleration_z = (float)accel.z * kFilteringFactor + acceleration_z * (1.0f - kFilteringFactor);
if (accelerometerCounter == kUpdateCount)
[UIAccelerometer sharedAccelerometer].delegate = nil;
// Figure out orientation from acceleration_[xyz] and set up your UI...
[UIDevice currentDevice].orientation return the correct orientation during
applicationDidFinishLaunching:? If so, you can set up your initial UI according to that orientation.
If that property doesn't get set until some later time, you might try experimenting with
performSelector:afterDelay: to initialize the UI after a small delay.
This code sample is from Kendall's answer below, added here for completeness:
[self performSelector:@selector(getOriented) withObject:nil afterDelay:0.0f];
I'm not sure if a zero-second delay is sufficient -- this means the code for
getOriented will run during the first pass through the event run loop. You may need to wait longer for the accelerometer readings to register on