I need to use ffmpeg/avconv to pipe jpg frames to a python PIL (Pillow) Image object, using gst as an intermediary*. I've been searching everywhere for this answer without much luck. I think I'm close - but I'm stuck. Using Python 2.7
My ideal pipeline, launched from python, looks like this:
- ffmpeg/avconv (as h264 video)
- Piped ->
- gst-streamer (frames split into jpg)
- Piped ->
- Pil Image Object
I have the first few steps under control as a single command that writes .jpgs to disk as furiously fast as the hardware will allow.
That command looks something like this:
command = [ "ffmpeg", "-f video4linux2", "-r 30", "-video_size 1280x720", "-pixel_format 'uyvy422'", "-i /dev/video0", "-vf fps=30", "-f H264", "-vcodec libx264", "-preset ultrafast", "pipe:1 -", "|", # Pipe to GST "gst-launch-1.0 fdsrc !", "video/x-h264,framerate=30/1,stream-format=byte-stream !", "decodebin ! videorate ! video/x-raw,framerate=30/1 !", "videoconvert !", "jpegenc quality=55 !", "multifilesink location=" + Utils.live_sync_path + "live_%04d.jpg" ]
This will successfully write frames to disk if ran with popen or os.system.
But instead of writing frames to disk, I want to capture the output in my subprocess pipe and read the frames, as they are written, in a file-like buffer that can then be read by PIL.
Something like this:
import subprocess as sp import shlex import StringIO clean_cmd = shlex.split(" ".join(command)) pipe = sp.Popen(clean_cmd, stdout = sp.PIPE, bufsize=10**8) while pipe: raw = pipe.stdout.read() buff = StringIO.StringIO() buff.write(raw) buff.seek(0) # Open or do something clever... im = Image.open(buff) im.show() pipe.flush()
This code doesn't work - I'm not even sure I can use "while pipe" in this way. I'm fairly new to using buffers and piping in this way.
I'm not sure how I would know that an image has been written to the pipe or when to read the 'next' image.
Any help would be greatly appreciated in understanding how to read the images from a pipe rather than to disk.
- This is ultimately a Raspberry Pi 3 pipeline and in order to increase my frame rates I can't (A) read/write to/from disk or (B) use a frame by frame capture method - as opposed to running H246 video directly from the camera chip.