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I've been struggling with several dimensions to the problem of controlling video orientation during and after capture on an iOS device. Thanks to previous answers and documentation from Apple I've been able to figure it out. However, now that I want to push some video to a web site, I'm running into particular problems. I've outlined this problem in particular in this question, and the proposed solution turns out to require orientation options to be set during video encoding.

That may be, but I have no clue how to go about doing this. The documentation around setting orientation is in respect to setting it correctly for display on the device, and I've implemented the advice found here. However, this advice does not address setting the orientation properly for non-Apple software, such as VLC or the Chrome browser.

Can anyone provide insight into how to set orientation properly on the device such that it displays correctly for all viewing software?

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The actual data always has static orientation during capture. The orientation is stored in the preferredTransform value. So, I guess, you need to export video to rotate the data. I would look into AVAssetExportSession AVMutableVideoComposition setTransform:atTime:, this might help. –  Davyd Nov 22 '12 at 0:02
I have a technical support incident request into Apple to help figure this out. But I'll take a look as you suggest. Would this mean a separate encode step after the video is recorded, I wonder? That might be computationally expensive... –  Aaron Vegh Nov 22 '12 at 2:07
Yes, this would be an extra step. However, it may be not that expensive if export without changing the original encoding. Let me know if you find a better solution. –  Davyd Nov 22 '12 at 10:41
I've successfully implemented your suggestion — I created an AVAssetExportSessionn using the AVMutableVideoComposition and setting a transform. It was a pretty hairy time, but I got it working this weekend. Thanks for the tip! –  Aaron Vegh Nov 26 '12 at 3:17
Great! I am happy it worked for you. –  Davyd Nov 26 '12 at 3:47
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4 Answers

In case anyone else is looking for this answer as well, this is the method that I cooked up (modified a bit to simplify):

- (void)encodeVideoOrientation:(NSURL *)anOutputFileURL
CGAffineTransform rotationTransform;
CGAffineTransform rotateTranslate;
CGSize renderSize;

switch (self.recordingOrientation)
    // set these 3 values based on orientation


AVURLAsset * videoAsset = [[AVURLAsset alloc]initWithURL:anOutputFileURL options:nil];

AVAssetTrack *sourceVideoTrack = [[videoAsset tracksWithMediaType:AVMediaTypeVideo] objectAtIndex:0];
AVAssetTrack *sourceAudioTrack = [[videoAsset tracksWithMediaType:AVMediaTypeAudio] objectAtIndex:0];

AVMutableComposition* composition = [AVMutableComposition composition];

AVMutableCompositionTrack *compositionVideoTrack = [composition addMutableTrackWithMediaType:AVMediaTypeVideo preferredTrackID:kCMPersistentTrackID_Invalid];
[compositionVideoTrack insertTimeRange:CMTimeRangeMake(kCMTimeZero, videoAsset.duration)
                                atTime:kCMTimeZero error:nil];
[compositionVideoTrack setPreferredTransform:sourceVideoTrack.preferredTransform];

AVMutableCompositionTrack *compositionAudioTrack = [composition addMutableTrackWithMediaType:AVMediaTypeAudio
[compositionAudioTrack insertTimeRange:CMTimeRangeMake(kCMTimeZero, videoAsset.duration)
                                atTime:kCMTimeZero error:nil];

AVMutableVideoCompositionInstruction *instruction = [AVMutableVideoCompositionInstruction videoCompositionInstruction];
AVMutableVideoCompositionLayerInstruction *layerInstruction = [AVMutableVideoCompositionLayerInstruction videoCompositionLayerInstructionWithAssetTrack:compositionVideoTrack];
[layerInstruction setTransform:rotateTranslate atTime:kCMTimeZero];

AVMutableVideoComposition *videoComposition = [AVMutableVideoComposition videoComposition];
videoComposition.frameDuration = CMTimeMake(1,30);
videoComposition.renderScale = 1.0;
videoComposition.renderSize = renderSize;
instruction.layerInstructions = [NSArray arrayWithObject: layerInstruction];
instruction.timeRange = CMTimeRangeMake(kCMTimeZero, videoAsset.duration);
videoComposition.instructions = [NSArray arrayWithObject: instruction];

AVAssetExportSession * assetExport = [[AVAssetExportSession alloc] initWithAsset:composition

NSString* videoName = @"export.mov";
NSString *exportPath = [NSTemporaryDirectory() stringByAppendingPathComponent:videoName];

NSURL * exportUrl = [NSURL fileURLWithPath:exportPath];

if ([[NSFileManager defaultManager] fileExistsAtPath:exportPath])
    [[NSFileManager defaultManager] removeItemAtPath:exportPath error:nil];

assetExport.outputFileType = AVFileTypeMPEG4;
assetExport.outputURL = exportUrl;
assetExport.shouldOptimizeForNetworkUse = YES;
assetExport.videoComposition = videoComposition;

[assetExport exportAsynchronouslyWithCompletionHandler:
 ^(void ) {
     switch (assetExport.status)
         case AVAssetExportSessionStatusCompleted:
             //                export complete
             NSLog(@"Export Complete");
         case AVAssetExportSessionStatusFailed:
             NSLog(@"Export Failed");
             NSLog(@"ExportSessionError: %@", [assetExport.error localizedDescription]);
             //                export error (see exportSession.error)
         case AVAssetExportSessionStatusCancelled:
             NSLog(@"Export Failed");
             NSLog(@"ExportSessionError: %@", [assetExport.error localizedDescription]);
             //                export cancelled


This stuff is poorly documented, unfortunately, but by stringing examples together from other SO questions and reading the header files, I was able to get this working. Hope this helps anyone else!

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Use these below method to set correct orientation according to video asset orientation in AVMutableVideoComposition

-(AVMutableVideoComposition *) getVideoComposition:(AVAsset *)asset
  AVAssetTrack *videoTrack = [[asset tracksWithMediaType:AVMediaTypeVideo] objectAtIndex:0];
  AVMutableComposition *composition = [AVMutableComposition composition];
  AVMutableVideoComposition *videoComposition = [AVMutableVideoComposition videoComposition];
  CGSize videoSize = videoTrack.naturalSize;
  BOOL isPortrait_ = [self isVideoPortrait:asset];
  if(isPortrait_) {
      NSLog(@"video is portrait ");
      videoSize = CGSizeMake(videoSize.height, videoSize.width);
  composition.naturalSize     = videoSize;
  videoComposition.renderSize = videoSize;
  // videoComposition.renderSize = videoTrack.naturalSize; //
  videoComposition.frameDuration = CMTimeMakeWithSeconds( 1 / videoTrack.nominalFrameRate, 600);

  AVMutableCompositionTrack *compositionVideoTrack;
  compositionVideoTrack = [composition addMutableTrackWithMediaType:AVMediaTypeVideo preferredTrackID:kCMPersistentTrackID_Invalid];
  [compositionVideoTrack insertTimeRange:CMTimeRangeMake(kCMTimeZero, asset.duration) ofTrack:videoTrack atTime:kCMTimeZero error:nil];
  AVMutableVideoCompositionLayerInstruction *layerInst;
  layerInst = [AVMutableVideoCompositionLayerInstruction videoCompositionLayerInstructionWithAssetTrack:videoTrack];
  [layerInst setTransform:videoTrack.preferredTransform atTime:kCMTimeZero];
  AVMutableVideoCompositionInstruction *inst = [AVMutableVideoCompositionInstruction videoCompositionInstruction];
  inst.timeRange = CMTimeRangeMake(kCMTimeZero, asset.duration);
  inst.layerInstructions = [NSArray arrayWithObject:layerInst];
  videoComposition.instructions = [NSArray arrayWithObject:inst];
  return videoComposition;

-(BOOL) isVideoPortrait:(AVAsset *)asset
  BOOL isPortrait = FALSE;
  NSArray *tracks = [asset tracksWithMediaType:AVMediaTypeVideo];
  if([tracks    count] > 0) {
    AVAssetTrack *videoTrack = [tracks objectAtIndex:0];

    CGAffineTransform t = videoTrack.preferredTransform;
    // Portrait
    if(t.a == 0 && t.b == 1.0 && t.c == -1.0 && t.d == 0)
        isPortrait = YES;
    // PortraitUpsideDown
    if(t.a == 0 && t.b == -1.0 && t.c == 1.0 && t.d == 0)  {

        isPortrait = YES;
    // LandscapeRight
    if(t.a == 1.0 && t.b == 0 && t.c == 0 && t.d == 1.0)
        isPortrait = FALSE;
    // LandscapeLeft
    if(t.a == -1.0 && t.b == 0 && t.c == 0 && t.d == -1.0)
        isPortrait = FALSE;
  return isPortrait;
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In Apple's documentation here it states:

Clients may now receive physically rotated CVPixelBuffers in their AVCaptureVideoDataOutput -captureOutput:didOutputSampleBuffer:fromConnection: delegate callback. In previous iOS versions, the front-facing camera would always deliver buffers in AVCaptureVideoOrientationLandscapeLeft and the back-facing camera would always deliver buffers in AVCaptureVideoOrientationLandscapeRight. All 4 AVCaptureVideoOrientations are supported, and rotation is hardware accelerated. To request buffer rotation, a client calls -setVideoOrientation: on the AVCaptureVideoDataOutput's video AVCaptureConnection. Note that physically rotating buffers does come with a performance cost, so only request rotation if it's necessary. If, for instance, you want rotated video written to a QuickTime movie file using AVAssetWriter, it is preferable to set the -transform property on the AVAssetWriterInput rather than physically rotate the buffers in AVCaptureVideoDataOutput.

So the posted solution by Aaron Vegh that uses an AVAssetExportSession works, but is not needed. Like the Apple doc's say, if you'd like to have the orientation set correctly so that it plays in non-apple quicktime players like VLC or on the web using Chrome, you must set the video orientation on the AVCaptureConnection for the AVCaptureVideoDataOutput. If you try to set it for th AVAssetWriterInput you will get an incorrect orientation for players like VLC and Chrome

Here is my code where I set it during setting up the capture session:

@property (strong,nonatomic) AVCaptureDeviceInput *audioIn;
@property (strong,nonatomic) AVCaptureAudioDataOutput *audioOut;
@property (strong,nonatomic) AVCaptureDeviceInput *videoIn;
@property (strong,nonatomic) AVCaptureVideoDataOutput *videoOut;
@property (strong,nonatomic) AVCaptureConnection *audioConnection;
@property (strong,nonatomic) AVCaptureConnection *videoConnection;

// Setup Session
self.session = [[AVCaptureSession alloc]init];
[self.session setSessionPreset:AVCaptureSessionPreset640x480];

// Create Audio connection ----------------------------------------
self.audioIn = [[AVCaptureDeviceInput alloc]initWithDevice:[self getAudioDevice] error:nil];
if ([self.session canAddInput:self.audioIn]) {
    [self.session addInput:self.audioIn];

self.audioOut = [[AVCaptureAudioDataOutput alloc]init];
dispatch_queue_t audioCaptureQueue = dispatch_queue_create("Audio Capture Queue", DISPATCH_QUEUE_SERIAL);
[self.audioOut setSampleBufferDelegate:self queue:audioCaptureQueue];
if ([self.session canAddOutput:self.audioOut]) {
    [self.session addOutput:self.audioOut];
self.audioConnection = [self.audioOut connectionWithMediaType:AVMediaTypeAudio];

// Create Video connection ----------------------------------------
self.videoIn = [[AVCaptureDeviceInput alloc]initWithDevice:[self videoDeviceWithPosition:AVCaptureDevicePositionBack] error:nil];
if ([self.session canAddInput:self.videoIn]) {
    [self.session addInput:self.videoIn];

self.videoOut = [[AVCaptureVideoDataOutput alloc]init];
[self.videoOut setAlwaysDiscardsLateVideoFrames:NO];
[self.videoOut setVideoSettings:nil];
dispatch_queue_t videoCaptureQueue =  dispatch_queue_create("Video Capture Queue", DISPATCH_QUEUE_SERIAL);
[self.videoOut setSampleBufferDelegate:self queue:videoCaptureQueue];
if ([self.session canAddOutput:self.videoOut]) {
    [self.session addOutput:self.videoOut];

self.videoConnection = [self.videoOut connectionWithMediaType:AVMediaTypeVideo];
// SET THE ORIENTATION HERE -------------------------------------------------
[self.videoConnection setVideoOrientation:AVCaptureVideoOrientationPortrait];
// --------------------------------------------------------------------------

// Create Preview Layer -------------------------------------------
AVCaptureVideoPreviewLayer *previewLayer = [[AVCaptureVideoPreviewLayer alloc]initWithSession:self.session];
CGRect bounds = self.videoView.bounds;
previewLayer.videoGravity = AVLayerVideoGravityResizeAspectFill;
previewLayer.bounds = bounds;
previewLayer.position=CGPointMake(CGRectGetMidX(bounds), CGRectGetMidY(bounds));
[self.videoView.layer addSublayer:previewLayer];

// Start session
[self.session startRunning];


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I'd love to use this kind of solution. It would address a lot of problems. The docs hint at "performance cost". Did this cost turn out to be significant in your experience? I'm curious about presets with the highest bit rates (e.g. HD resolution at 120 frames per second on an iPhone 5s)? –  otto Jan 29 at 15:33
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Since iOS 5 you can request rotated CVPixelBuffers using AVCaptureVideoDataOutput documented here. This gives you the correct orientation without having to reprocess the video again with AVAssetExportSession.

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