tools/frame_size_variation_analyzer.py - aom - Git at Google

 # RTC frame size variation analyzer
 # Usage:
 # 1. Config with "-DCONFIG_OUTPUT_FRAME_SIZE=1".
 # 2. Build aomenc. Encode a file, and generate output file: frame_sizes.csv
 # 3. Run: python ./frame_size.py frame_sizes.csv target-bitrate fps
 #    Where target-bitrate: Bitrate (kbps), and fps is frame per second.
 #    Example: python ../aom/tools/frame_size_variation_analyzer.py frame_sizes.csv
 #    1000 30

 import numpy as np
 import csv
 import sys
 import matplotlib.pyplot as plt

 # return the moving average
 def moving_average(x, w):
   return np.convolve(x, np.ones(w), 'valid') / w

 def frame_size_analysis(filename, target_br, fps):
   tbr = target_br * 1000 / fps

   with open(filename, 'r') as infile:
     raw_data = list(csv.reader(infile, delimiter=','))

   data = np.array(raw_data).astype(float)
   fsize = data[:, 0].astype(float)  # frame size
   qindex = data[:, 1].astype(float)  # qindex

   # Frame bit rate mismatch
   mismatch = np.absolute(fsize - np.full(fsize.size, tbr))

   # Count how many frames are more than 2.5x of frame target bit rate.
   tbr_thr = tbr * 2.5
   cnt = 0
   idx = np.arange(fsize.size)
   for i in idx:
     if fsize[i] > tbr_thr:
       cnt = cnt + 1

   # Use the 15-frame moving window
   win = 15
   avg_fsize = moving_average(fsize, win)
   win_mismatch = np.absolute(avg_fsize - np.full(avg_fsize.size, tbr))

   print('[Target frame rate (bit)]:', "%.2f"%tbr)
   print('[Average frame rate (bit)]:', "%.2f"%np.average(fsize))
   print('[Frame rate standard deviation]:', "%.2f"%np.std(fsize))
   print('[Max/min frame rate (bit)]:', "%.2f"%np.max(fsize), '/', "%.2f"%np.min(fsize))
   print('[Average frame rate mismatch (bit)]:', "%.2f"%np.average(mismatch))
   print('[Number of frames (frame rate > 2.5x of target frame rate)]:', cnt)
   print(' Moving window size:', win)
   print('[Moving average frame rate mismatch (bit)]:', "%.2f"%np.average(win_mismatch))
   print('------------------------------')

   figure, axis = plt.subplots(2)
   x = np.arange(fsize.size)
   axis[0].plot(x, fsize, color='blue')
   axis[0].set_title("frame sizes")
   axis[1].plot(x, qindex, color='blue')
   axis[1].set_title("frame qindex")
   plt.tight_layout()

   # Save the plot
   plotname = filename + '.png'
   plt.savefig(plotname)
   plt.show()

 if __name__ == '__main__':
   if (len(sys.argv) < 4):
     print(sys.argv[0], 'input_file, target_bitrate, fps')
     sys.exit()
   target_br = int(sys.argv[2])
   fps = int(sys.argv[3])
   frame_size_analysis(sys.argv[1], target_br, fps)
	# RTC frame size variation analyzer
	# Usage:
	# 1. Config with "-DCONFIG_OUTPUT_FRAME_SIZE=1".
	# 2. Build aomenc. Encode a file, and generate output file: frame_sizes.csv
	# 3. Run: python ./frame_size.py frame_sizes.csv target-bitrate fps
	# Where target-bitrate: Bitrate (kbps), and fps is frame per second.
	# Example: python ../aom/tools/frame_size_variation_analyzer.py frame_sizes.csv
	# 1000 30

	import numpy as np
	import csv
	import sys
	import matplotlib.pyplot as plt

	# return the moving average
	def moving_average(x, w):
	return np.convolve(x, np.ones(w), 'valid') / w

	def frame_size_analysis(filename, target_br, fps):
	tbr = target_br * 1000 / fps

	with open(filename, 'r') as infile:
	raw_data = list(csv.reader(infile, delimiter=','))

	data = np.array(raw_data).astype(float)
	fsize = data[:, 0].astype(float) # frame size
	qindex = data[:, 1].astype(float) # qindex

	# Frame bit rate mismatch
	mismatch = np.absolute(fsize - np.full(fsize.size, tbr))

	# Count how many frames are more than 2.5x of frame target bit rate.
	tbr_thr = tbr * 2.5
	cnt = 0
	idx = np.arange(fsize.size)
	for i in idx:
	if fsize[i] > tbr_thr:
	cnt = cnt + 1

	# Use the 15-frame moving window
	win = 15
	avg_fsize = moving_average(fsize, win)
	win_mismatch = np.absolute(avg_fsize - np.full(avg_fsize.size, tbr))

	print('[Target frame rate (bit)]:', "%.2f"%tbr)
	print('[Average frame rate (bit)]:', "%.2f"%np.average(fsize))
	print('[Frame rate standard deviation]:', "%.2f"%np.std(fsize))
	print('[Max/min frame rate (bit)]:', "%.2f"%np.max(fsize), '/', "%.2f"%np.min(fsize))
	print('[Average frame rate mismatch (bit)]:', "%.2f"%np.average(mismatch))
	print('[Number of frames (frame rate > 2.5x of target frame rate)]:', cnt)
	print(' Moving window size:', win)
	print('[Moving average frame rate mismatch (bit)]:', "%.2f"%np.average(win_mismatch))
	print('------------------------------')

	figure, axis = plt.subplots(2)
	x = np.arange(fsize.size)
	axis[0].plot(x, fsize, color='blue')
	axis[0].set_title("frame sizes")
	axis[1].plot(x, qindex, color='blue')
	axis[1].set_title("frame qindex")
	plt.tight_layout()

	# Save the plot
	plotname = filename + '.png'
	plt.savefig(plotname)
	plt.show()

	if __name__ == '__main__':
	if (len(sys.argv) < 4):
	print(sys.argv[0], 'input_file, target_bitrate, fps')
	sys.exit()
	target_br = int(sys.argv[2])
	fps = int(sys.argv[3])
	frame_size_analysis(sys.argv[1], target_br, fps)