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Sur d’autres sites (12438)

  • mov : Export geotag metadata fields

    3 juin 2014, par Martin Storsjö
    mov : Export geotag metadata fields

    The ’ ?xyz’ form is used by android devices (and according to apple
    
mailing list archives, also by older iOS devices). The ’loci’ field
    
(defined in 3GPP 26.244) is used by recent iOS devices.
    

    Even though the loci field can contain an altitude, it was plain
    
0 in my sample. Just export longitude and latitude, in a string
    
format matching the one used by the ’ ?xyz’ metadata field.
    

    Signed-off-by : Martin Storsjö <martin@martin.st>
    • [DH] libavformat/mov.c

  • How to crop and scale correctly with FFMPEG ?

    16 juin 2020, par Rivera A. Pablo

    I'm trying to remove the TOP AND BOTTOM black bars of a video.

    &#xA;&#xA;

    Image sample from video&#xA;image

    &#xA;&#xA;

    What i'm trying to achieve

    &#xA;&#xA;

    image

    &#xA;&#xA;

    The video itself is 1280x720 16:9, but the portion that's image information is at 4:3 since it's been captured from a VHS. I want to somehow stretch it until the top bars disappear without deforming the image. I don't care about the left and right bars.

    &#xA;&#xA;

    I tried using crop and scale with no luck.

    &#xA;&#xA;

    By using this code the top and bottom black bars disappeared on VLC when on normal screen but when going Full Screen the bars appeared again.

    &#xA;&#xA;

    ffmpeg -i test.avi -filter:v "crop=1280:670" output_video.mp4&#xA;

    &#xA;&#xA;

    I thought it had something to do with the Scale of the video but honestly every scale code I tried to use deformed the image a lot.

    &#xA;&#xA;

    I hope someone can help me, fairly new to FFMPEG but really enjoying it this far.

    &#xA;

  • Multiprocess FATE Revisited

    26 juin 2010, par Multimedia Mike — FATE Server, Python

    I thought I had brainstormed a simple, elegant, multithreaded, deadlock-free refactoring for FATE in a previous post. However, I sort of glossed over the test ordering logic which I had not yet prototyped. The grim, possibly deadlock-afflicted reality is that the main thread needs to be notified as tests are completed. So, the main thread sends test specs through a queue to be executed by n tester threads and those threads send results to a results aggregator thread. Additionally, the results aggregator will need to send completed test IDs back to the main thread.



    But when I step back and look at the graph, I can’t rationalize why there should be a separate results aggregator thread. That was added to cut down on deadlock possibilities since the main thread and the tester threads would not be waiting for data from each other. Now that I’ve come to terms with the fact that the main and the testers need to exchange data in realtime, I think I can safely eliminate the result thread. Adding more threads is not the best way to guard against race conditions and deadlocks. Ask xine.



    I’m still hung up on the deadlock issue. I have these queues through which the threads communicate. At issue is the fact that they can cause a thread to block when inserting an item if the queue is "full". How full is full ? Immaterial ; seeking to answer such a question is not how you guard against race conditions. Rather, it seems to me that one side should be doing non-blocking queue operations.

    This is how I’m planning to revise the logic in the main thread :

    test_set = set of all tests to execute
tests_pending = test_set
tests_blocked = empty set
tests_queue = multi-consumer queue to send test specs to tester threads
results_queue = multi-producer queue through which tester threads send results
while there are tests in tests_pending :
  pop a test from test_set
  if test depends on any tests that appear in tests_pending :
    add test to tests_blocked
  else :
    add test to tests_queue in a non-blocking manner
    if tests_queue is full, add test to tests_blocked

      while there are results in the results_queue :
    
    get a result from result_queue in non-blocking manner
    
    remove the corresponding test from tests_pending
    

    if tests_blocked is non-empty :
    
  sleep for 1 second
    
  test_set = tests_blocked
    
  tests_blocked = empty set
    
else :
    
  insert n shutdown signals, one from each thread
    

    go to the top of the loop and repeat until there are no more tests
    

    while there are results in the results_queue :
    
  get a result from result_queue in a blocking manner

    Not mentioned in the pseudocode (so it doesn’t get too verbose) is logic to check whether the retrieved test result is actually an end-of-thread signal. These are accounted and the whole test process is done when one is received for each thread.

    On the tester thread side, it’s safe for them to do blocking test queue retrievals and blocking result queue insertions. The reason for the 1-second delay before resetting tests_blocked and looping again is because I want to guard against the situation where tests A and B are to be run, A depends of B running first, and while B is running (and happens to be a long encoding test), the main thread is spinning about, obsessively testing whether it’s time to insert A into the tests queue.

    It all sounds just crazy enough to work. In fact, I coded it up and it does work, sort of. The queue gets blocked pretty quickly. Instead of sleeping, I decided it’s better to perform the put operation using a 1-second timeout.

    Still, I’m paranoid about the precise operation of the IPC queue mechanism at work here. What happens if I try to stuff in a test spec that’s a bit too large ? Will the module take whatever I give it and serialize it through the queue as soon as it can ? I think an impromptu science project is in order.

    big-queue.py :

    PLAIN TEXT
    PYTHON :
    1. # !/usr/bin/python
    2.  
    3. import multiprocessing
    4. import Queue
    5.  
    6. def f(q) :
    7.   str = q.get()
    8.   print "reader function got a string of %d characters" % (len(str))
    9.  
    10. q = multiprocessing.Queue()
    11. p = multiprocessing.Process(target=f, args=(q,))
    12. p.start()
    13. try :
    14.   q.put_nowait(’a’ * 100000000)
    15. except Queue.Full :
    16.   print "queue full" 
    $ ./big-queue.py
reader function got a string of 100000000 characters

    Since 100 MB doesn’t even make it choke, FATE’s little test specs shouldn’t pose any difficulty.

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