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  • I have an application in flask where it streams a camera using ffmpeg, the problem is that I can not display the video from the camera using the GPU [closed]

    17 janvier, par Ruben

    I'll put you in context, I am using flask (python) to display a camera in the browser to stream it, for this I use the following Python code :

    


    command = [
     'ffmpeg',
     '-loglevel', 'warning',
     '-rtsp_transport', 'tcp',
     '-i', self.config['url'],
     '-map', '0:v:0', # fuerzo que solo procese el video
     '-vf', f'fps={self.config["fps"]},scale=640:360:force_original_aspect_ratio=decrease',
     '-c:v', 'h264_nvenc', # especificamos que queremos tirar de la gpu de nvidia
     '-preset', 'p7', # ajusta para la maxima calidad/velocidad (p1 mas rapida pero peor calidad - p7 más lento pero mejor calidad)
     '-qp', self.config['quality'], # control de calidad del codificador (0 [mejor calidad] - 51 [peor calidad])
     '-pix_fmt', 'yuv444p', # se mete explicitamente el formato de pixeles
     '-color_range', 'pc',
     '-an', # desactiva el audio
     '-f', 'image2pipe',
     'pipe:1'
] 

self.process = subprocess.Popen(
   command,
   stdout=subprocess.PIPE,
   stderr=subprocess.PIPE,
   bufsize=10**8
)


    


    The problem is that it does not display the video streaming, but it connects correctly to the camera.

    


    On the other hand, It show me the following warnings, which may have something to do with the display, it's probably the second warning that has to do with the pixel format :

    


    DEBUG :main:FFmpeg [camera1] : Guessed Channel Layout for Input Stream #0.1 : mono
DEBUG :main:FFmpeg [camera1] : [swscaler @ 0x560f70b78680] deprecated pixel format used, make sure you did set range correctly

    


    The server has different encodes installed :

    


    DEV.LS h264 H.264 / AVC / MPEG-4 AVC / MPEG-4 part 10 (decoders : h264 h264_v4l2m2m h264_qsv h264_cuvid ) (encoders : libx264 libx264rgb h264_nvenc h264_omx h264_qsv h264_v4l2m2m h264_vaapi nvenc nvenc_h264 )

    


    Y uso el h264_nvenc, tambien el servidor tiene soporte de aceleración de hardware con :

    


    libavutil 56. 70.100 / 56. 70.100
libavcodec 58.134.100 / 58.134.100
libavformat 58. 76.100 / 58. 76.100
libavdevice 58. 13.100 / 58. 13.100
libavfilter 7.110.100 / 7.110.100
libswscale 5. 9.100 / 5. 9.100
libswresample 3. 9.100 / 3. 9.100
libpostproc 55. 9.100 / 55. 9.100
Hardware acceleration methods :
vdpau
cuda
vaapi
qsv
drm
opencl

    


    Between them h264_nvenc uses cuda

    


    I expand a little on the information it provides me when using h264_nvenc :

    


    Encoder h264_nvenc [NVIDIA NVENC H.264 encoder]:&#xA;    General capabilities: dr1 delay hardware&#xA;    Threading capabilities: none&#xA;    Supported hardware devices: cuda cuda&#xA;    Supported pixel formats: yuv420p nv12 p010le yuv444p p016le yuv444p16le bgr0 rgb0 cuda&#xA;h264_nvenc AVOptions:&#xA;  -preset            <int>        E..V....... Set the encoding preset (from 0 to 18) (default p4)&#xA;     default         0            E..V.......&#xA;     slow            1            E..V....... hq 2 passes&#xA;     medium          2            E..V....... hq 1 pass&#xA;     fast            3            E..V....... hp 1 pass&#xA;     hp              4            E..V.......&#xA;     hq              5            E..V.......&#xA;     bd              6            E..V.......&#xA;     ll              7            E..V....... low latency&#xA;     llhq            8            E..V....... low latency hq&#xA;     llhp            9            E..V....... low latency hp&#xA;     lossless        10           E..V.......&#xA;     losslesshp      11           E..V.......&#xA;     p1              12           E..V....... fastest (lowest quality)&#xA;     p2              13           E..V....... faster (lower quality)&#xA;     p3              14           E..V....... fast (low quality)&#xA;     p4              15           E..V....... medium (default)&#xA;     p5              16           E..V....... slow (good quality)&#xA;     p6              17           E..V....... slower (better quality)&#xA;     p7              18           E..V....... slowest (best quality)&#xA;  -tune              <int>        E..V....... Set the encoding tuning info (from 1 to 4) (default hq)&#xA;     hq              1            E..V....... High quality&#xA;     ll              2            E..V....... Low latency&#xA;     ull             3            E..V....... Ultra low latency&#xA;     lossless        4            E..V....... Lossless&#xA;  -profile           <int>        E..V....... Set the encoding profile (from 0 to 3) (default main)&#xA;     baseline        0            E..V.......&#xA;     main            1            E..V.......&#xA;     high            2            E..V.......&#xA;     high444p        3            E..V.......&#xA;  -level             <int>        E..V....... Set the encoding level restriction (from 0 to 62) (default auto)&#xA;     auto            0            E..V.......&#xA;     1               10           E..V.......&#xA;     1.0             10           E..V.......&#xA;     1b              9            E..V.......&#xA;     1.0b            9            E..V.......&#xA;     1.1             11           E..V.......&#xA;     1.2             12           E..V.......&#xA;     1.3             13           E..V.......&#xA;     2               20           E..V.......&#xA;     2.0             20           E..V.......&#xA;     2.1             21           E..V.......&#xA;     2.2             22           E..V.......&#xA;     3               30           E..V.......&#xA;     3.0             30           E..V.......&#xA;     3.1             31           E..V.......&#xA;     3.2             32           E..V.......&#xA;     4               40           E..V.......&#xA;     4.0             40           E..V.......&#xA;     4.1             41           E..V.......&#xA;     4.2             42           E..V.......&#xA;     5               50           E..V.......&#xA;     5.0             50           E..V.......&#xA;     5.1             51           E..V.......&#xA;     5.2             52           E..V.......&#xA;     6.0             60           E..V.......&#xA;     6.1             61           E..V.......&#xA;     6.2             62           E..V.......&#xA;  -rc                <int>        E..V....... Override the preset rate-control (from -1 to INT_MAX) (default -1)&#xA;     constqp         0            E..V....... Constant QP mode&#xA;     vbr             1            E..V....... Variable bitrate mode&#xA;     cbr             2            E..V....... Constant bitrate mode&#xA;     vbr_minqp       8388612      E..V....... Variable bitrate mode with MinQP (deprecated)&#xA;     ll_2pass_quality 8388616      E..V....... Multi-pass optimized for image quality (deprecated)&#xA;     ll_2pass_size   8388624      E..V....... Multi-pass optimized for constant frame size (deprecated)&#xA;     vbr_2pass       8388640      E..V....... Multi-pass variable bitrate mode (deprecated)&#xA;     cbr_ld_hq       8388616      E..V....... Constant bitrate low delay high quality mode&#xA;     cbr_hq          8388624      E..V....... Constant bitrate high quality mode&#xA;     vbr_hq          8388640      E..V....... Variable bitrate high quality mode&#xA;  -rc-lookahead      <int>        E..V....... Number of frames to look ahead for rate-control (from 0 to INT_MAX) (default 0)&#xA;  -surfaces          <int>        E..V....... Number of concurrent surfaces (from 0 to 64) (default 0)&#xA;  -cbr               <boolean>    E..V....... Use cbr encoding mode (default false)&#xA;  -2pass             <boolean>    E..V....... Use 2pass encoding mode (default auto)&#xA;  -gpu               <int>        E..V....... Selects which NVENC capable GPU to use. First GPU is 0, second is 1, and so on. (from -2 to INT_MAX) (default any)&#xA;     any             -1           E..V....... Pick the first device available&#xA;     list            -2           E..V....... List the available devices&#xA;  -delay             <int>        E..V....... Delay frame output by the given amount of frames (from 0 to INT_MAX) (default INT_MAX)&#xA;  -no-scenecut       <boolean>    E..V....... When lookahead is enabled, set this to 1 to disable adaptive I-frame insertion at scene cuts (default false)&#xA;  -forced-idr        <boolean>    E..V....... If forcing keyframes, force them as IDR frames. (default false)&#xA;  -b_adapt           <boolean>    E..V....... When lookahead is enabled, set this to 0 to disable adaptive B-frame decision (default true)&#xA;  -spatial-aq        <boolean>    E..V....... set to 1 to enable Spatial AQ (default false)&#xA;  -spatial_aq        <boolean>    E..V....... set to 1 to enable Spatial AQ (default false)&#xA;  -temporal-aq       <boolean>    E..V....... set to 1 to enable Temporal AQ (default false)&#xA;  -temporal_aq       <boolean>    E..V....... set to 1 to enable Temporal AQ (default false)&#xA;  -zerolatency       <boolean>    E..V....... Set 1 to indicate zero latency operation (no reordering delay) (default false)&#xA;  -nonref_p          <boolean>    E..V....... Set this to 1 to enable automatic insertion of non-reference P-frames (default false)&#xA;  -strict_gop        <boolean>    E..V....... Set 1 to minimize GOP-to-GOP rate fluctuations (default false)&#xA;  -aq-strength       <int>        E..V....... When Spatial AQ is enabled, this field is used to specify AQ strength. AQ strength scale is from 1 (low) - 15 (aggressive) (from 1 to 15) (default 8)&#xA;  -cq                <float>      E..V....... Set target quality level (0 to 51, 0 means automatic) for constant quality mode in VBR rate control (from 0 to 51) (default 0)&#xA;  -aud               <boolean>    E..V....... Use access unit delimiters (default false)&#xA;  -bluray-compat     <boolean>    E..V....... Bluray compatibility workarounds (default false)&#xA;  -init_qpP          <int>        E..V....... Initial QP value for P frame (from -1 to 51) (default -1)&#xA;  -init_qpB          <int>        E..V....... Initial QP value for B frame (from -1 to 51) (default -1)&#xA;  -init_qpI          <int>        E..V....... Initial QP value for I frame (from -1 to 51) (default -1)&#xA;  -qp                <int>        E..V....... Constant quantization parameter rate control method (from -1 to 51) (default -1)&#xA;  -weighted_pred     <int>        E..V....... Set 1 to enable weighted prediction (from 0 to 1) (default 0)&#xA;  -coder             <int>        E..V....... Coder type (from -1 to 2) (default default)&#xA;     default         -1           E..V.......&#xA;     auto            0            E..V.......&#xA;     cabac           1            E..V.......&#xA;     cavlc           2            E..V.......&#xA;     ac              1            E..V.......&#xA;     vlc             2            E..V.......&#xA;  -b_ref_mode        <int>        E..V....... Use B frames as references (from 0 to 2) (default disabled)&#xA;     disabled        0            E..V....... B frames will not be used for reference&#xA;     each            1            E..V....... Each B frame will be used for reference&#xA;     middle          2            E..V....... Only (number of B frames)/2 will be used for reference&#xA;  -a53cc             <boolean>    E..V....... Use A53 Closed Captions (if available) (default true)&#xA;  -dpb_size          <int>        E..V....... Specifies the DPB size used for encoding (0 means automatic) (from 0 to INT_MAX) (default 0)&#xA;  -multipass         <int>        E..V....... Set the multipass encoding (from 0 to 2) (default disabled)&#xA;     disabled        0            E..V....... Single Pass&#xA;     qres            1            E..V....... Two Pass encoding is enabled where first Pass is quarter resolution&#xA;     fullres         2            E..V....... Two Pass encoding is enabled where first Pass is full resolution&#xA;  -ldkfs             <int>        E..V....... Low delay key frame scale; Specifies the Scene Change frame size increase allowed in case of single frame VBV and CBR (from 0 to 255) (default 0)&#xA;</int></int></int></boolean></int></int></int></int></int></int></int></boolean></boolean></float></int></boolean></boolean></boolean></boolean></boolean></boolean></boolean></boolean></boolean></boolean></int></int></boolean></boolean></int></int></int></int></int></int></int>

    &#xA;

    If anyone has some idea or needs more information to help me, I would appreciate it.

    &#xA;

  • Winamp and the March of GUI

    1er juillet 2012, par Multimedia Mike — General, ars technica, gui, user interface, winamp

    Ars Technica recently published a 15-year retrospective on the venerable Winamp multimedia player, prompting bouts of nostalgia and revelations of "Huh ? That program is still around ?" from many readers. I was among them.



    I remember first using Winamp in 1997. I remember finding a few of these new files called MP3s online and being able to play the first 20 seconds using the official Fraunhofer Windows player— full playback required the fully licensed version. Then I searched for another player and came up with Winamp. The first version I ever used was v1.05 in the summer of 1997. I remember checking the website often for updates and trying out every single one. I can’t imagine doing that nowadays— programs need to auto-update themselves (which Winamp probably does now ; I can’t recall the last time I used the program).

    Video Underdog
    The last time Winamp came up on my radar was early in 2003 when a new version came with support for a custom, proprietary multimedia audio/video format called Nullsoft Video (NSV). I remember the timeframe because the date is indicated in the earliest revision of my NSV spec document (back when I was maintaining such docs in a series of plaintext files). This was cobbled together from details I and others in the open source multimedia community sorted out from sample files. It was missing quite a few details, though.

    Then, Winamp founder Justin Frankel — introduced through a colleague on the xine team — emailed me his official NSV format and told me I was free to incorporate details into my document just as long as it wasn’t obvious that I had the official spec. This put me in an obnoxious position of trying to incorporate details which would have been very difficult to reverse engineer without the official doc. I think I coped with the situation by never really getting around to updating my doc in any meaningful way. Then, one day, the official spec was released to the world anyway, and it is now mirrored here at multimedia.cx.

    I don’t think the format ever really caught on in any meaningful way, so not a big deal. (Anytime I say that about a format, I always learn it saw huge adoption is some small but vocal community.)

    What’s Wrong With This Picture ?
    What I really wanted to discuss in this post was the matter of graphical user interfaces and how they have changed in the last 15 years.

    I still remember when I first downloaded Winamp v1.05 and tried it on my Windows machine at the time. Indignantly, the first thought I had was, "What makes this program think it’s so special that it’s allowed to violate the user interface conventions put forth by the rest of the desktop ?" All of the Windows programs followed a standard set of user interface patterns and had a consistent look and feel... and then Winamp came along and felt it could violate all those conventions.

    I guess I let the program get away with it because it was either that or only play 20-second clips from the unregistered Fraunhofer player. Though incredibly sterile by comparison, the Fraunhofer player, it should be noted, followed Windows UI guidelines to the letter.

    As the summer of 1997 progressed and more Winamp versions were released, eventually one came out (I think it was v1.6 or so) that supported skins. I was excited because there was a skin that made the program look like a proper Windows program— at least if you used the default Windows color scheme, and had all of your fonts a certain type and size.

    Skins were implemented by packaging together a set of BMP images to overlay on various UI elements. I immediately saw a number of shortcomings with this skinning approach. A big one was UI lock-in. Ironically, if you skin an app and wish to maintain backwards compatibility with the thousands of skins selflessly authored by your vibrant community (seriously, I couldn’t believe how prolific these things were), then you were effectively locked into the primary UI. Forget about adding a new button anywhere.

    Another big problem was resolution-independence. Basing your UI on static bitmaps doesn’t scale well with various resolutions. Winamp had its normal mode and it also had double-sized mode.

    Skins proliferated among many types of programs in the late 1990s. I always treasured this Suck.com (remember them ? that’s a whole other nostalgia trip) essay from April, 2000 entitled Skin Cancer. Still, Winamp was basically the standard, and the best, and I put away my righteous nerd rage and even dug through the vast troves of skins. I remember settling on Swankamp for a good part of 1998, probably due to the neo-swing revival at the time.



    Then again, if Winamp irked me, imagine my reaction when I was first exposed to the Sonique Music Player in 1998 :



    The New UI Order
    Upon reflection, I realize now that I had a really myopic view of what a computer GUI should be. I thought the GUIs were necessarily supposed to follow the WIMP (windows, icons, mouse, pointer) paradigm and couldn’t conceive of anything different. For a long time, I couldn’t envision a useful GUI on a small device (like a phone) because WIMP didn’t fit well on such a small interface (even though I saw various ill-fated attempts to make it work). This thinking seriously crippled me when I was trying to craft a GUI for a custom console media player I was developing as a hobby many years ago.

    I’m looking around at what I have open on my Windows 7 desktop right now. Google Chrome browser, Apple iTunes, Adobe Photoshop Elements, and VMware Player are 4 programs which all seem to have their own skins. Maybe Winamp doesn’t look so out of place these days.

  • ffmpeg Error while filtering : Cannot allocate memory

    7 juillet 2017, par Andres MERE

    My workstation seems to have plenty of memory (and everything). When I am trying to run ffmpeg as follows :

    /usr/local/bin/ffmpeg \
    
    -loglevel debug \
    
    -i "A066C002_170619NU_CANON.mov" \
    
    -filter_complex "[0:0] [0:2] amerge, aformat=sample_fmts=s16:channel_layouts=stereo [a]" \
    
    -map "[a]" \
    
    -map 0:5 \
    
    -c:a libfdk_aac \
    
    -vbr 3 \
    
    -vcodec libx264 \
    
    -profile:v baseline \
    
    -level 3.0 \
    
    -vf scale=1280:720 \
    
    -pix_fmt yuv420p \
    
    -crf 20 \
    
    -metadata title="Test movie" \
    
    -movflags +faststart \
    
    -y \
    
    "A066C002_170619NU_CANON.mp4"

    It fails with "Error while filtering : Cannot allocate memory".

    ffmpeg version N-86721-gf605b56-am Copyright (c) 2000-2017 the FFmpeg developers
    
      built with gcc 4.4.7 (GCC) 20120313 (Red Hat 4.4.7-4)
    
      configuration: --extra-version=am --enable-gpl --enable-libfdk-aac --enable-libsoxr --enable-libvorbis --enable-libvpx --enable-libx264 --enable-libx265 --enable-nonfree --enable-shared
    
      libavutil      55. 67.100 / 55. 67.100
    
      libavcodec     57.100.103 / 57.100.103
    
      libavformat    57. 75.100 / 57. 75.100
    
      libavdevice    57.  7.100 / 57.  7.100
    
      libavfilter     6. 94.100 /  6. 94.100
    
      libswscale      4.  7.101 /  4.  7.101
    
      libswresample   2.  8.100 /  2.  8.100
    
      libpostproc    54.  6.100 / 54.  6.100
    
    Splitting the commandline.
    
    Reading option '-loglevel' ... matched as option 'loglevel' (set logging level) with argument 'debug'.
    
    Reading option '-i' ... matched as input url with argument 'A066C002_170619NU_CANON.mov'.
    
    Reading option '-filter_complex' ... matched as option 'filter_complex' (create a complex filtergraph) with argument '[0:0] [0:2] amerge, aformat=sample_fmts=s16:channel_layouts=stereo [a]'.
    
    Reading option '-map' ... matched as option 'map' (set input stream mapping) with argument '[a]'.
    
    Reading option '-map' ... matched as option 'map' (set input stream mapping) with argument '0:5'.
    
    Reading option '-c:a' ... matched as option 'c' (codec name) with argument 'libfdk_aac'.
    
    Reading option '-vbr' ... matched as AVOption 'vbr' with argument '3'.
    
    Reading option '-vcodec' ... matched as option 'vcodec' (force video codec ('copy' to copy stream)) with argument 'libx264'.
    
    Reading option '-profile:v' ... matched as option 'profile' (set profile) with argument 'baseline'.
    
    Reading option '-level' ... matched as AVOption 'level' with argument '3.0'.
    
    Reading option '-vf' ... matched as option 'vf' (set video filters) with argument 'scale=1280:720'.
    
    Reading option '-pix_fmt' ... matched as option 'pix_fmt' (set pixel format) with argument 'yuv420p'.
    
    Reading option '-crf' ... matched as AVOption 'crf' with argument '20'.
    
    Reading option '-metadata' ... matched as option 'metadata' (add metadata) with argument 'title=Test movie'.
    
    Reading option '-movflags' ... matched as AVOption 'movflags' with argument '+faststart'.
    
    Reading option '-y' ... matched as option 'y' (overwrite output files) with argument '1'.
    
    Reading option 'A066C002_170619NU_CANON.mp4' ... matched as output url.
    
    Finished splitting the commandline.
    
    Parsing a group of options: global .
    
    Applying option loglevel (set logging level) with argument debug.
    
    Applying option filter_complex (create a complex filtergraph) with argument [0:0] [0:2] amerge, aformat=sample_fmts=s16:channel_layouts=stereo [a].
    
    Applying option y (overwrite output files) with argument 1.
    
    Successfully parsed a group of options.
    
    Parsing a group of options: input url A066C002_170619NU_CANON.mov.
    
    Successfully parsed a group of options.
    
    Opening an input file: A066C002_170619NU_CANON.mov.
    
    [NULL @ 0x1c4f920] Opening 'A066C002_170619NU_CANON.mov' for reading
    
    [file @ 0x1c4ffc0] Setting default whitelist 'file,crypto'
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Format mov,mp4,m4a,3gp,3g2,mj2 probed with size=2048 and score=100
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Unknown dref type 0x73696c61 size 12
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Processing st: 0, edit list 0 - media time: 0, duration: 129254400
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Unknown dref type 0x73696c61 size 12
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Processing st: 1, edit list 0 - media time: 0, duration: 129254400
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Unknown dref type 0x73696c61 size 12
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Processing st: 2, edit list 0 - media time: 0, duration: 129254400
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Unknown dref type 0x73696c61 size 12
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Processing st: 3, edit list 0 - media time: 0, duration: 129254400
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Unknown dref type 0x73696c61 size 12
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Processing st: 4, edit list 0 - media time: 0, duration: 1
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Unknown dref type 0x73696c61 size 12
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Processing st: 5, edit list 0 - media time: 0, duration: 67320
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] Before avformat_find_stream_info() pos: 59339926200 bytes read:760258 seeks:3 nb_streams:6
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] All info found
    
    [mov,mp4,m4a,3gp,3g2,mj2 @ 0x1c4f920] After avformat_find_stream_info() pos: 1180516 bytes read:1945622 seeks:4 frames:144
    
    Guessed Channel Layout for Input Stream #0.0 : mono
    
    Guessed Channel Layout for Input Stream #0.1 : mono
    
    Guessed Channel Layout for Input Stream #0.2 : mono
    
    Guessed Channel Layout for Input Stream #0.3 : mono
    
    Input #0, mov,mp4,m4a,3gp,3g2,mj2, from 'A066C002_170619NU_CANON.mov':
    
      Metadata:
    
        creation_time   : 2017-06-19T10:12:13.000000Z
    
        com.apple.quicktime.creationdate: 2017-06-19T13:12:13+0300
    
        com.apple.proapps.manufacturer: CANON
    
        com.apple.quicktime.make: CANON
    
        com.apple.proapps.mio.cameraName: EOS C300 Mark II
    
        com.apple.proapps.cameraname: EOS C300 Mark II
    
        com.apple.quicktime.model: EOS C300 Mark II
    
        com.apple.quicktime.camera.identifier: 060e2b34-0401-010d-0e15-0056454f0200
    
        com.divergentmedia.editready.timecodeStart: 05:45:28:08
    
        com.divergentmedia.editready.sonyXDCamTC: 05:45:28:08
    
        com.divergentmedia.editReady.version: EditReady 1.4.9, 798
    
        com.apple.proapps.studio.metadataFieldDominanceOverride: 1
    
        date            : 2017-06-19T13:12:13+0300
    
        date-eng        : 2017-06-19T13:12:13+0300
    
        make            : CANON
    
        make-eng        : CANON
    
        model           : EOS C300 Mark II
    
        model-eng       : EOS C300 Mark II
    
        timecode        : 05:45:28:08
    
      Duration: 00:44:52.80, start: 0.000000, bitrate: 176292 kb/s
    
        Stream #0:0(eng), 47, 1/48000: Audio: pcm_s16le (lpcm / 0x6D63706C), 48000 Hz, mono, s16, 768 kb/s (default)
    
        Metadata:
    
          creation_time   : 2017-06-19T10:12:13.000000Z
    
          handler_name    : Apple Alias Data Handler
    
        Stream #0:1(eng), 47, 1/48000: Audio: pcm_s16le (lpcm / 0x6D63706C), 48000 Hz, mono, s16, 768 kb/s (default)
    
        Metadata:
    
          creation_time   : 2017-06-19T10:12:13.000000Z
    
          handler_name    : Apple Alias Data Handler
    
        Stream #0:2(eng), 47, 1/48000: Audio: pcm_s16le (lpcm / 0x6D63706C), 48000 Hz, mono, s16, 768 kb/s (default)
    
        Metadata:
    
          creation_time   : 2017-06-19T10:12:13.000000Z
    
          handler_name    : Apple Alias Data Handler
    
        Stream #0:3(eng), 1, 1/48000: Audio: pcm_s16le (lpcm / 0x6D63706C), 48000 Hz, mono, s16, 768 kb/s (default)
    
        Metadata:
    
          creation_time   : 2017-06-19T10:12:13.000000Z
    
          handler_name    : Apple Alias Data Handler
    
        Stream #0:4(eng), 1, 1/25: Data: none (tmcd / 0x64636D74), 0/1, 0 kb/s (default)
    
        Metadata:
    
          creation_time   : 2017-06-19T10:12:13.000000Z
    
          handler_name    : Apple Alias Data Handler
    
          timecode        : 05:45:28:08
    
        Stream #0:5(eng), 1, 1/25: Video: prores, 1 reference frame (apch / 0x68637061), yuv422p10le(bt709, progressive), 1920x1080, 0/1, 173217 kb/s, SAR 1:1 DAR 16:9, 25 fps, 25 tbr, 25 tbn, 25 tbc (default)
    
        Metadata:
    
          creation_time   : 2017-06-21T11:52:58.000000Z
    
          handler_name    : Apple Alias Data Handler
    
          encoder         : Apple ProRes 422 (HQ)
    
    Successfully opened the file.
    
    detected 16 logical cores
    
    [Parsed_aformat_1 @ 0x1c71a60] Setting 'sample_fmts' to value 's16'
    
    [Parsed_aformat_1 @ 0x1c71a60] Setting 'channel_layouts' to value 'stereo'
    
    Parsing a group of options: output url A066C002_170619NU_CANON.mp4.
    
    Applying option map (set input stream mapping) with argument [a].
    
    Applying option map (set input stream mapping) with argument 0:5.
    
    Applying option c:a (codec name) with argument libfdk_aac.
    
    Applying option vcodec (force video codec ('copy' to copy stream)) with argument libx264.
    
    Applying option profile:v (set profile) with argument baseline.
    
    Applying option vf (set video filters) with argument scale=1280:720.
    
    Applying option pix_fmt (set pixel format) with argument yuv420p.
    
    Applying option metadata (add metadata) with argument title=Test movie.
    
    Successfully parsed a group of options.
    
    Opening an output file: A066C002_170619NU_CANON.mp4.
    
    [file @ 0x1d4fe40] Setting default whitelist 'file,crypto'
    
    Successfully opened the file.
    
    Stream mapping:
    
      Stream #0:0 (pcm_s16le) -> amerge:in0 (graph 0)
    
      Stream #0:2 (pcm_s16le) -> amerge:in1 (graph 0)
    
      aformat (graph 0) -> Stream #0:0 (libfdk_aac)
    
      Stream #0:5 -> #0:1 (prores (native) -> h264 (libx264))
    
    Press [q] to stop, [?] for help
    
    cur_dts is invalid (this is harmless if it occurs once at the start per stream)
    
        Last message repeated 1 times
    
    [Parsed_scale_0 @ 0x2397e60] Setting 'w' to value '1280'
    
    [Parsed_scale_0 @ 0x2397e60] Setting 'h' to value '720'
    
    [Parsed_scale_0 @ 0x2397e60] Setting 'flags' to value 'bicubic'
    
    [Parsed_scale_0 @ 0x2397e60] w:1280 h:720 flags:'bicubic' interl:0
    
    [graph 1 input from stream 0:5 @ 0x23984c0] Setting 'video_size' to value '1920x1080'
    
    [graph 1 input from stream 0:5 @ 0x23984c0] Setting 'pix_fmt' to value '74'
    
    [graph 1 input from stream 0:5 @ 0x23984c0] Setting 'time_base' to value '1/25'
    
    [graph 1 input from stream 0:5 @ 0x23984c0] Setting 'pixel_aspect' to value '1/1'
    
    [graph 1 input from stream 0:5 @ 0x23984c0] Setting 'sws_param' to value 'flags=2'
    
    [graph 1 input from stream 0:5 @ 0x23984c0] Setting 'frame_rate' to value '25/1'
    
    [graph 1 input from stream 0:5 @ 0x23984c0] w:1920 h:1080 pixfmt:yuv422p10le tb:1/25 fr:25/1 sar:1/1 sws_param:flags=2
    
    [format @ 0x2399240] compat: called with args=[yuv420p]
    
    [format @ 0x2399240] Setting 'pix_fmts' to value 'yuv420p'
    
    [AVFilterGraph @ 0x1d517e0] query_formats: 4 queried, 3 merged, 0 already done, 0 delayed
    
    [Parsed_scale_0 @ 0x2397e60] w:1920 h:1080 fmt:yuv422p10le sar:1/1 -> w:1280 h:720 fmt:yuv420p sar:1/1 flags:0x4
    
    [libx264 @ 0x1d4f1a0] using mv_range_thread = 24
    
    [libx264 @ 0x1d4f1a0] using SAR=1/1
    
    [libx264 @ 0x1d4f1a0] frame MB size (80x45) > level limit (1620)
    
    [libx264 @ 0x1d4f1a0] MB rate (90000) > level limit (40500)
    
    [libx264 @ 0x1d4f1a0] using cpu capabilities: MMX2 SSE2Fast SSSE3 SSE4.2 AVX
    
    [libx264 @ 0x1d4f1a0] profile Constrained Baseline, level 3.0
    
    [libx264 @ 0x1d4f1a0] 264 - core 152 r2851 ba24899 - H.264/MPEG-4 AVC codec - Copyleft 2003-2017 - http://www.videolan.org/x264.html - options: cabac=0 ref=2 deblock=1:0:0 analyse=0x1:0x111 me=hex subme=7 psy=1 psy_rd=1.00:0.00 mixed_ref=1 me_range=16 chroma_me=1 trellis=1 8x8dct=0 cqm=0 deadzone=21,11 fast_pskip=1 chroma_qp_offset=-2 threads=22 lookahead_threads=3 sliced_threads=0 nr=0 decimate=1 interlaced=0 bluray_compat=0 constrained_intra=0 bframes=0 weightp=0 keyint=250 keyint_min=25 scenecut=40 intra_refresh=0 rc_lookahead=40 rc=crf mbtree=1 crf=20.0 qcomp=0.60 qpmin=0 qpmax=69 qpstep=4 ip_ratio=1.40 aq=1:1.00
    
    cur_dts is invalid (this is harmless if it occurs once at the start per stream)
    
        Last message repeated 94 times
    
    [Parsed_aformat_1 @ 0x2559500] Setting 'sample_fmts' to value 's16'
    
    [Parsed_aformat_1 @ 0x2559500] Setting 'channel_layouts' to value 'stereo'
    
    [graph_0_in_0_0 @ 0x257c7c0] Setting 'time_base' to value '1/48000'
    
    [graph_0_in_0_0 @ 0x257c7c0] Setting 'sample_rate' to value '48000'
    
    [graph_0_in_0_0 @ 0x257c7c0] Setting 'sample_fmt' to value 's16'
    
    [graph_0_in_0_0 @ 0x257c7c0] Setting 'channel_layout' to value '0x4'
    
    [graph_0_in_0_0 @ 0x257c7c0] tb:1/48000 samplefmt:s16 samplerate:48000 chlayout:0x4
    
    [graph_0_in_0_2 @ 0x25820a0] Setting 'time_base' to value '1/48000'
    
    [graph_0_in_0_2 @ 0x25820a0] Setting 'sample_rate' to value '48000'
    
    [graph_0_in_0_2 @ 0x25820a0] Setting 'sample_fmt' to value 's16'
    
    [graph_0_in_0_2 @ 0x25820a0] Setting 'channel_layout' to value '0x4'
    
    [graph_0_in_0_2 @ 0x25820a0] tb:1/48000 samplefmt:s16 samplerate:48000 chlayout:0x4
    
    [format_out_0_0 @ 0x2580ce0] Setting 'sample_fmts' to value 's16'
    
    [format_out_0_0 @ 0x2580ce0] Setting 'sample_rates' to value '96000|88200|64000|48000|44100|32000|24000|22050|16000|12000|11025|8000'
    
    [format_out_0_0 @ 0x2580ce0] Setting 'channel_layouts' to value '0x4|0x3|0x7|0x107|0x37|0x3f|0xff|0x63f'
    
    [Parsed_amerge_0 @ 0x1c6edc0] No channel layout for input 1
    
    [AVFilterGraph @ 0x1c8abc0] query_formats: 5 queried, 6 merged, 0 already done, 9 delayed
    
    [AVFilterGraph @ 0x1c8abc0] query_formats not finished
    
    [Parsed_amerge_0 @ 0x1c6edc0] Input channel layouts overlap: output layout will be determined by the number of distinct input channels
    
    [AVFilterGraph @ 0x1c8abc0] query_formats: 1 queried, 9 merged, 6 already done, 0 delayed
    
    [Parsed_amerge_0 @ 0x1c6edc0] in0:mono + in1:mono -> out:stereo
    
    [libfdk_aac @ 0x1d4e300] Note, the VBR setting is unsupported and only works with some parameter combinations
    
    Output #0, mp4, to 'A066C002_170619NU_CANON.mp4':
    
      Metadata:
    
        timecode        : 05:45:28:08
    
        com.apple.quicktime.creationdate: 2017-06-19T13:12:13+0300
    
        com.apple.proapps.manufacturer: CANON
    
        com.apple.quicktime.make: CANON
    
        com.apple.proapps.mio.cameraName: EOS C300 Mark II
    
        com.apple.proapps.cameraname: EOS C300 Mark II
    
        com.apple.quicktime.model: EOS C300 Mark II
    
        com.apple.quicktime.camera.identifier: 060e2b34-0401-010d-0e15-0056454f0200
    
        com.divergentmedia.editready.timecodeStart: 05:45:28:08
    
        com.divergentmedia.editready.sonyXDCamTC: 05:45:28:08
    
        com.divergentmedia.editReady.version: EditReady 1.4.9, 798
    
        com.apple.proapps.studio.metadataFieldDominanceOverride: 1
    
        date            : 2017-06-19T13:12:13+0300
    
        date-eng        : 2017-06-19T13:12:13+0300
    
        make            : CANON
    
        make-eng        : CANON
    
        model           : EOS C300 Mark II
    
        model-eng       : EOS C300 Mark II
    
        title           : Test movie
    
        encoder         : Lavf57.75.100
    
        Stream #0:0, 0, 1/48000: Audio: aac (libfdk_aac) (mp4a / 0x6134706D), 48000 Hz, stereo, s16, delay 2048 (default)
    
        Metadata:
    
          encoder         : Lavc57.100.103 libfdk_aac
    
        Stream #0:1(eng), 0, 1/12800: Video: h264 (libx264), 1 reference frame (avc1 / 0x31637661), yuv420p, 1280x720 [SAR 1:1 DAR 16:9], 0/1, q=-1--1, 25 fps, 12800 tbn, 25 tbc (default)
    
        Metadata:
    
          creation_time   : 2017-06-21T11:52:58.000000Z
    
          handler_name    : Apple Alias Data Handler
    
          encoder         : Lavc57.100.103 libx264
    
        Side data:
    
          cpb: bitrate max/min/avg: 0/0/0 buffer size: 0 vbv_delay: -1
    
    cur_dts is invalid (this is harmless if it occurs once at the start per stream)
    
        Last message repeated 2 times
    
    Clipping frame in rate conversion by 0.000008
    
    cur_dts is invalid (this is harmless if it occurs once at the start per stream)
    
        Last message repeated 201 times
    
    cur_dts is invalid (this is harmless if it occurs once at the start per stream) 0x    
    
        Last message repeated 157 times
    
    cur_dts is invalid (this is harmless if it occurs once at the start per stream) 0x    
    
    [libx264 @ 0x1d4f1a0] frame=   0 QP=19.02 NAL=3 Slice:I Poc:0   I:3600 P:0    SKIP:0    size=49899 bytes
    
    Error while filtering: Cannot allocate memory
    
    [libx264 @ 0x1d4f1a0] frame=   1 QP=19.20 NAL=2 Slice:P Poc:2   I:14   P:2118 SKIP:1468 size=6808 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   2 QP=18.86 NAL=2 Slice:P Poc:4   I:15   P:2339 SKIP:1246 size=7088 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   3 QP=19.08 NAL=2 Slice:P Poc:6   I:9    P:2449 SKIP:1142 size=7341 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   4 QP=18.92 NAL=2 Slice:P Poc:8   I:5    P:2482 SKIP:1113 size=7725 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   5 QP=18.73 NAL=2 Slice:P Poc:10  I:6    P:2100 SKIP:1494 size=6831 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   6 QP=18.73 NAL=2 Slice:P Poc:12  I:4    P:2492 SKIP:1104 size=8298 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   7 QP=18.52 NAL=2 Slice:P Poc:14  I:1    P:2397 SKIP:1202 size=7250 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   8 QP=18.51 NAL=2 Slice:P Poc:16  I:7    P:1523 SKIP:2070 size=5344 bytes
    
    [libx264 @ 0x1d4f1a0] frame=   9 QP=18.51 NAL=2 Slice:P Poc:18  I:6    P:2398 SKIP:1196 size=7865 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  10 QP=18.58 NAL=2 Slice:P Poc:20  I:1    P:1840 SKIP:1759 size=6451 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  11 QP=18.58 NAL=2 Slice:P Poc:22  I:5    P:1764 SKIP:1831 size=6159 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  12 QP=18.52 NAL=2 Slice:P Poc:24  I:3    P:2421 SKIP:1176 size=8151 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  13 QP=18.51 NAL=2 Slice:P Poc:26  I:1    P:1892 SKIP:1707 size=6476 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  14 QP=18.41 NAL=2 Slice:P Poc:28  I:3    P:1919 SKIP:1678 size=6431 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  15 QP=18.48 NAL=2 Slice:P Poc:30  I:1    P:1255 SKIP:2344 size=4060 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  16 QP=18.79 NAL=2 Slice:P Poc:32  I:2    P:1373 SKIP:2225 size=4398 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  17 QP=18.77 NAL=2 Slice:P Poc:34  I:2    P:1459 SKIP:2139 size=4480 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  18 QP=19.01 NAL=2 Slice:P Poc:36  I:7    P:1658 SKIP:1935 size=5003 bytes
    
    [libx264 @ 0x1d4f1a0] scene cut at 48 Icost:227110 Pcost:199261 ratio:0.1226 bias:0.1307 gop:48 (imb:3134 pmb:220)
    
    [libx264 @ 0x1d4f1a0] frame=  19 QP=18.95 NAL=2 Slice:P Poc:38  I:0    P:2461 SKIP:1139 size=7169 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  20 QP=19.01 NAL=2 Slice:P Poc:40  I:1    P:2118 SKIP:1481 size=6048 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  21 QP=19.04 NAL=2 Slice:P Poc:42  I:0    P:2114 SKIP:1486 size=5838 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  22 QP=18.97 NAL=2 Slice:P Poc:44  I:3    P:2277 SKIP:1320 size=5952 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  23 QP=19.12 NAL=2 Slice:P Poc:46  I:0    P:1658 SKIP:1942 size=4813 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  24 QP=19.33 NAL=2 Slice:P Poc:48  I:0    P:1926 SKIP:1674 size=5503 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  25 QP=19.25 NAL=2 Slice:P Poc:50  I:0    P:2470 SKIP:1130 size=6478 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  26 QP=19.21 NAL=2 Slice:P Poc:52  I:0    P:2589 SKIP:1011 size=6985 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  27 QP=19.12 NAL=2 Slice:P Poc:54  I:0    P:2312 SKIP:1288 size=6381 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  28 QP=19.20 NAL=2 Slice:P Poc:56  I:2    P:2532 SKIP:1066 size=7296 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  29 QP=19.01 NAL=2 Slice:P Poc:58  I:0    P:2611 SKIP:989  size=8186 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  30 QP=18.95 NAL=2 Slice:P Poc:60  I:0    P:2582 SKIP:1018 size=7610 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  31 QP=19.02 NAL=2 Slice:P Poc:62  I:2    P:2620 SKIP:978  size=8077 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  32 QP=19.09 NAL=2 Slice:P Poc:64  I:1    P:1989 SKIP:1610 size=6214 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  33 QP=19.09 NAL=2 Slice:P Poc:66  I:0    P:2483 SKIP:1117 size=7027 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  34 QP=19.17 NAL=2 Slice:P Poc:68  I:0    P:2477 SKIP:1123 size=6833 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  35 QP=19.07 NAL=2 Slice:P Poc:70  I:1    P:2373 SKIP:1226 size=6915 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  36 QP=19.28 NAL=2 Slice:P Poc:72  I:3    P:2400 SKIP:1197 size=6975 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  37 QP=19.21 NAL=2 Slice:P Poc:74  I:1    P:2643 SKIP:956  size=7505 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  38 QP=19.40 NAL=2 Slice:P Poc:76  I:0    P:2289 SKIP:1311 size=6682 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  39 QP=19.52 NAL=2 Slice:P Poc:78  I:1    P:2074 SKIP:1525 size=5823 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  40 QP=19.72 NAL=2 Slice:P Poc:80  I:2    P:2420 SKIP:1178 size=6552 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  41 QP=19.99 NAL=2 Slice:P Poc:82  I:274  P:2019 SKIP:1307 size=7398 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  42 QP=19.77 NAL=2 Slice:P Poc:84  I:545  P:1946 SKIP:1109 size=7933 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  43 QP=19.52 NAL=2 Slice:P Poc:86  I:523  P:1969 SKIP:1108 size=7596 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  44 QP=19.25 NAL=2 Slice:P Poc:88  I:649  P:1303 SKIP:1648 size=6070 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  45 QP=18.80 NAL=2 Slice:P Poc:90  I:949  P:1115 SKIP:1536 size=6608 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  46 QP=18.51 NAL=2 Slice:P Poc:92  I:915  P:1141 SKIP:1544 size=6499 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  47 QP=18.38 NAL=2 Slice:P Poc:94  I:882  P:1071 SKIP:1647 size=6326 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  48 QP=15.38 NAL=3 Slice:I Poc:0   I:3600 P:0    SKIP:0    size=15254 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  49 QP=18.47 NAL=2 Slice:P Poc:2   I:870  P:1178 SKIP:1552 size=9327 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  50 QP=18.35 NAL=2 Slice:P Poc:4   I:691  P:1606 SKIP:1303 size=9056 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  51 QP=18.56 NAL=2 Slice:P Poc:6   I:567  P:1697 SKIP:1336 size=9923 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  52 QP=18.72 NAL=2 Slice:P Poc:8   I:500  P:1725 SKIP:1375 size=10632 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  53 QP=18.46 NAL=2 Slice:P Poc:10  I:537  P:1789 SKIP:1274 size=9973 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  54 QP=18.55 NAL=2 Slice:P Poc:12  I:478  P:1916 SKIP:1206 size=10196 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  55 QP=18.68 NAL=2 Slice:P Poc:14  I:446  P:2027 SKIP:1127 size=10172 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  56 QP=19.00 NAL=2 Slice:P Poc:16  I:284  P:2138 SKIP:1178 size=9705 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  57 QP=19.10 NAL=2 Slice:P Poc:18  I:244  P:2116 SKIP:1240 size=9518 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  58 QP=19.39 NAL=2 Slice:P Poc:20  I:239  P:2231 SKIP:1130 size=8953 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  59 QP=19.16 NAL=2 Slice:P Poc:22  I:178  P:2379 SKIP:1043 size=9059 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  60 QP=19.28 NAL=2 Slice:P Poc:24  I:58   P:2329 SKIP:1213 size=8257 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  61 QP=19.21 NAL=2 Slice:P Poc:26  I:34   P:2231 SKIP:1335 size=6689 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  62 QP=19.55 NAL=2 Slice:P Poc:28  I:14   P:2219 SKIP:1367 size=6164 bytes
    
    [libx264 @ 0x1d4f1a0] frame=  63 QP=20.04 NAL=2 Slice:P Poc:30  I:8    P:1836 SKIP:1756 size=4318 bytes
    
    [mp4 @ 0x1d4c880] Starting second pass: moving the moov atom to the beginning of the file
    
    [mp4 @ 0x1d4c880] Opening 'A066C002_170619NU_CANON.mp4' for reading
    
    [file @ 0xa01a460] Setting default whitelist 'file,crypto'
    
    [AVIOContext @ 0x6b95260] Statistics: 509968 bytes read, 0 seeks
    
    frame=   64 fps= 48 q=-1.0 Lsize=     500kB time=00:00:02.52 bitrate=1625.5kbits/s speed=1.88x    
    
    video:497kB audio:1kB subtitle:0kB other streams:0kB global headers:0kB muxing overhead: 0.417128%
    
    Input file #0 (A066C002_170619NU_CANON.mov):
    
      Input stream #0:0 (audio): 141 packets read (288000 bytes); 141 frames decoded (144000 samples); 
    
      Input stream #0:1 (audio): 47 packets read (96000 bytes); 
    
      Input stream #0:2 (audio): 141 packets read (288000 bytes); 141 frames decoded (144000 samples); 
    
      Input stream #0:3 (audio): 1 packets read (2048 bytes); 
    
      Input stream #0:4 (data): 1 packets read (4 bytes); 
    
      Input stream #0:5 (video): 64 packets read (59520416 bytes); 64 frames decoded; 
    
      Total: 395 packets (60194468 bytes) demuxed
    
    Output file #0 (A066C002_170619NU_CANON.mp4):
    
      Output stream #0:0 (audio): 1 frames encoded (1024 samples); 3 packets muxed (740 bytes); 
    
      Output stream #0:1 (video): 64 frames encoded; 64 packets muxed (509175 bytes); 
    
      Total: 67 packets (509915 bytes) muxed
    
    346 frames successfully decoded, 0 decoding errors
    
    [AVIOContext @ 0x1c71880] Statistics: 4 seeks, 7 writeouts
    
    [libx264 @ 0x1d4f1a0] frame I:2     Avg QP:17.20  size: 32576
    
    [libx264 @ 0x1d4f1a0] frame P:62    Avg QP:18.99  size:  7152
    
    [libx264 @ 0x1d4f1a0] mb I  I16..4: 49.2%  0.0% 50.8%
    
    [libx264 @ 0x1d4f1a0] mb P  I16..4:  3.5%  0.0%  1.0%  P16..4: 45.1%  8.4%  3.5%  0.0%  0.0%    skip:38.5%
    
    [libx264 @ 0x1d4f1a0] coded y,uvDC,uvAC intra: 30.7% 30.5% 4.8% inter: 7.0% 19.1% 0.3%
    
    [libx264 @ 0x1d4f1a0] i16 v,h,dc,p: 47% 21%  9% 23%
    
    [libx264 @ 0x1d4f1a0] i4 v,h,dc,ddl,ddr,vr,hd,vl,hu: 37% 18% 18%  5%  6%  4%  5%  4%  3%
    
    [libx264 @ 0x1d4f1a0] i8c dc,h,v,p: 72% 11% 15%  2%
    
    [libx264 @ 0x1d4f1a0] ref P L0: 63.8% 36.2%
    
    [libx264 @ 0x1d4f1a0] kb/s:1589.21
    
    [AVIOContext @ 0x1c583a0] Statistics: 61656934 bytes read, 59 seeks

    I happen to be absolute beginner (at least in ffmpeg). What went wrong ?

    Thanks ! Andres Mere

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