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I am trying to process a video. To make it faster I would like to read it with ffmpeg and then sending the frame to cv2 for processing.

This is what I have done:

import cv2
import subprocess as sp
import numpy as np

input_file = 'testvideo.mp4'


cap = cv2.VideoCapture(input_file)
ret, frame = cap.read()
height, width, ch = frame.shape

ffmpeg = "C:\\Users\\totyped\\Downloads\\ffmpeg\\bin\\ffmpeg.exe"
dimension = '{}x{}'.format(width, height)
f_format = 'bgr24' # remember OpenCV uses bgr format
fps = str(cap.get(cv2.CAP_PROP_FPS))

command = [ffmpeg,
        '-i', input_file,
            '-r', fps,                  # FPS
            '-pix_fmt', 'bgr24',        # opencv requires bgr24 pixel format.
            '-vcodec', 'mp4',
            '-an','-sn',                # disable audio processing
            '-f', 'image2pipe', '-']    

pipe = sp.Popen(command, stdout = sp.PIPE, bufsize=10)

while True:
    frame =  pipe.stdout.read()
    image =  np.frombuffer(frame, dtype='uint8')        # convert read bytes to np


    cv2.imshow('Video', image)
    if cv2.waitKey(1) & 0xFF == ord('q'):
        break

cap.release()
proc.stdin.close()
proc.stderr.close()
proc.wait()

I keep getting the same error:

error: OpenCV(4.0.0) C:\projects\opencv-python\opencv\modules\highgui\src\window.cpp:350: error: (-215:Assertion failed) size.width>0 && size.height>0 in function 'cv::imshow'

This is because something is wrong with the way that I retrieve the video.

Code was partially inspired from: https://www.reddit.com/r/linuxquestions/comments/b4jxdb/how_could_i_interface_ffmpeg_with_opencv_in/

EDIT:

import cv2
import subprocess as sp
import numpy as np

input_file = 'testvideo.mp4'


cap = cv2.VideoCapture(input_file)
ret, frame = cap.read()
height, width, ch = frame.shape

ffmpeg = "C:\\Users\\totyped\\Downloads\\ffmpeg\\bin\\ffmpeg.exe"
dimension = '{}x{}'.format(width, height)
f_format = 'bgr24' # remember OpenCV uses bgr format
fps = str(cap.get(cv2.CAP_PROP_FPS))

command = [ffmpeg,
        '-i', input_file,
            '-r', fps,                  # FPS
            '-pix_fmt', 'bgr24',        # opencv requires bgr24 pixel format.
            '-vcodec', 'mp4',
            '-an','-sn',                # disable audio processing
            '-f', 'image2pipe', '-']    

pipe = sp.Popen(command, stdout = sp.PIPE, bufsize=64000000)

while True:
    frame =  pipe.stdout.read(height*width*3)
    print(frame)
    image =  np.frombuffer(frame, dtype='uint8')        # convert read bytes to np


    cv2.imshow('Video', image)
    if cv2.waitKey(1) & 0xFF == ord('q'):
        break
  • How will you get a frame of RGB video in a 10 byte buffer? – Mark Setchell Oct 20 at 15:23
  • @MarkSetchell Actually not sure :/, what would you recommend to put there? – henry Oct 20 at 15:25
  • It would depend on several things... how much memory I had to spare, what the framesize is, what latency was acceptable. I would probably start testing around 64kB. Then I would try and read a whole frame because I would know how many bytes I was expecting. – Mark Setchell Oct 20 at 15:31
  • @MarkSetchell I changed the buffer but still no image :( – henry Oct 20 at 15:36
  • 1
    You appear to have made the buffer 64MB rather than 64kB. I have no idea what your width and height are, nor what you mean by "It still fails". How does it fail? Is there an error? Do you get some bytes or none? Does it fail immediately or after a few minutes? – Mark Setchell Oct 20 at 17:00
1

Try something like this - although I think you may be barking up the wrong tree by using ffmpeg because that's all that OpenCV uses under the covers. If you want more performance, maybe look more at multiprocessing - but this depends on the type of processing you are doing, which you haven't discussed or shown:

#!/usr/bin/env python3
import numpy as np
import cv2
import subprocess as sp
import numpy as np

ffmpeg = "ffmpeg"
input_file='test.mp4'
height, width = 480, 640
command = [ffmpeg,
            '-i', input_file,
            '-pix_fmt', 'bgr24',
            '-codec', 'rawvideo',
            '-an',
            '-sn',
            '-f', 'image2pipe', '-']   

pipe = sp.Popen(command, stdout = sp.PIPE, bufsize=65536)

frameCount=0
while True:
    nbytes = height*width*3
    print(f"Frame: {frameCount} - Trying to read {nbytes} bytes")
    frame =  pipe.stdout.read(nbytes)
    bytesRead = len(frame)
    print(f"Read {bytesRead} bytes")
    if bytesRead==0:
        break
    image =  np.frombuffer(frame, dtype='uint8')        # convert read bytes to np
    image = image.reshape((480,640,3))

    cv2.imshow('Video', image)
    if cv2.waitKey(1) & 0xFF == ord('q'):
        break
    frameCount += 1
0

I used this some time ago. It also includes starting multiple streams with it. I have not tested this method for all stream types or file types. But I did for RTSP-UDP streams.

import numpy
from subprocess import Popen, PIPE
import cv2

class ffmpeg_videocapture:
    def __init__(self, stream, width=640, height=360, scale=1, fps=15):
        self.command = 'ffmpeg -rtsp_transport udp -i {i} -pix_fmt bgr24 -s {w}x{h} -vcodec rawvideo ' \
                       '-an -sn -r {fps} -f image2pipe pipe:1'

        self.stream = stream
        self.width = width
        self.height = height
        self.scale = scale
        self.fps = fps

        self.errors = []
        self.start()

    def start(self):
        width = int(self.width * self.scale)
        height = int(self.height * self.scale)
        command = self.command.format(i=self.stream, w=width, h=height, fps=self.fps)
        self.capture = Popen(command.split(' '), stdout=PIPE, stderr=PIPE, bufsize=10 ** 8)

    def read(self):
        width = int(self.width * self.scale)
        height = int(self.height * self.scale)
        raw_image = self.capture.stdout.read(width * height * 3)

        frame = numpy.fromstring(raw_image, dtype='uint8')
        frame = frame.reshape((height, width, 3))

        self.capture.stdout.flush()

        return frame is not None, frame

    def __exit__(self, exc_type, exc_val, exc_tb):
        self.capture.terminate()


def single_camera(rtsp_stream):
    cap = ffmpeg_videocapture(rtsp_stream)
    while True:
        ret, frame = cap.read()
        cv2.imshow("frame", frame)

if __name__ == "__main__":
    rtsp_stream_list = [
        "rtsp_stream_1",
        "rtsp_stream_2",
        "etc...",
    ]

    for rtsp_stream in rtsp_stream_list:
        t = Process(target=single_camera, args=rtsp_stream)
        t.start()

I hope this will help you.

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