modules/video_coding/codecs/test/plot_webrtc_test_logs.py - src/ - Git at Google

 #  Copyright (c) 2017 The WebRTC project authors. All Rights Reserved.
 #
 #  Use of this source code is governed by a BSD-style license
 #  that can be found in the LICENSE file in the root of the source
 #  tree. An additional intellectual property rights grant can be found
 #  in the file PATENTS.  All contributing project authors may
 #  be found in the AUTHORS file in the root of the source tree.
 """Plots statistics from WebRTC integration test logs.

 Usage: $ python plot_webrtc_test_logs.py filename.txt
 """

 import numpy
 import sys
 import re

 import matplotlib.pyplot as plt

 # Log events.
 EVENT_START = 'RUN      ] CodecSettings/VideoCodecTestParameterized.'
 EVENT_END = 'OK ] CodecSettings/VideoCodecTestParameterized.'

 # Metrics to plot, tuple: (name to parse in file, label to use when plotting).
 WIDTH = ('width', 'width')
 HEIGHT = ('height', 'height')
 FILENAME = ('filename', 'clip')
 CODEC_TYPE = ('codec_type', 'Codec')
 ENCODER_IMPLEMENTATION_NAME = ('enc_impl_name', 'enc name')
 DECODER_IMPLEMENTATION_NAME = ('dec_impl_name', 'dec name')
 CODEC_IMPLEMENTATION_NAME = ('codec_impl_name', 'codec name')
 CORES = ('num_cores', 'CPU cores used')
 DENOISING = ('denoising', 'denoising')
 RESILIENCE = ('resilience', 'resilience')
 ERROR_CONCEALMENT = ('error_concealment', 'error concealment')
 CPU_USAGE = ('cpu_usage_percent', 'CPU usage (%)')
 BITRATE = ('target_bitrate_kbps', 'target bitrate (kbps)')
 FRAMERATE = ('input_framerate_fps', 'fps')
 QP = ('avg_qp', 'QP avg')
 PSNR = ('avg_psnr', 'PSNR (dB)')
 SSIM = ('avg_ssim', 'SSIM')
 ENC_BITRATE = ('bitrate_kbps', 'encoded bitrate (kbps)')
 NUM_FRAMES = ('num_input_frames', 'num frames')
 NUM_DROPPED_FRAMES = ('num_dropped_frames', 'num dropped frames')
 TIME_TO_TARGET = ('time_to_reach_target_bitrate_sec',
                   'time to reach target rate (sec)')
 ENCODE_SPEED_FPS = ('enc_speed_fps', 'encode speed (fps)')
 DECODE_SPEED_FPS = ('dec_speed_fps', 'decode speed (fps)')
 AVG_KEY_FRAME_SIZE = ('avg_key_frame_size_bytes', 'avg key frame size (bytes)')
 AVG_DELTA_FRAME_SIZE = ('avg_delta_frame_size_bytes',
                         'avg delta frame size (bytes)')

 # Settings.
 SETTINGS = [
     WIDTH,
     HEIGHT,
     FILENAME,
     NUM_FRAMES,
 ]

 # Settings, options for x-axis.
 X_SETTINGS = [
     CORES,
     FRAMERATE,
     DENOISING,
     RESILIENCE,
     ERROR_CONCEALMENT,
     BITRATE,  # TODO(asapersson): Needs to be last.
 ]

 # Settings, options for subplots.
 SUBPLOT_SETTINGS = [
     CODEC_TYPE,
     ENCODER_IMPLEMENTATION_NAME,
     DECODER_IMPLEMENTATION_NAME,
     CODEC_IMPLEMENTATION_NAME,
 ] + X_SETTINGS

 # Results.
 RESULTS = [
     PSNR,
     SSIM,
     ENC_BITRATE,
     NUM_DROPPED_FRAMES,
     TIME_TO_TARGET,
     ENCODE_SPEED_FPS,
     DECODE_SPEED_FPS,
     QP,
     CPU_USAGE,
     AVG_KEY_FRAME_SIZE,
     AVG_DELTA_FRAME_SIZE,
 ]

 METRICS_TO_PARSE = SETTINGS + SUBPLOT_SETTINGS + RESULTS

 Y_METRICS = [res[1] for res in RESULTS]

 # Parameters for plotting.
 FIG_SIZE_SCALE_FACTOR_X = 1.6
 FIG_SIZE_SCALE_FACTOR_Y = 1.8
 GRID_COLOR = [0.45, 0.45, 0.45]


 def ParseSetting(filename, setting):
     """Parses setting from file.

   Args:
     filename: The name of the file.
     setting: Name of setting to parse (e.g. width).

   Returns:
     A list holding parsed settings, e.g. ['width: 128.0', 'width: 160.0'] """

     settings = []

     settings_file = open(filename)
     while True:
         line = settings_file.readline()
         if not line:
             break
         if re.search(r'%s' % EVENT_START, line):
             # Parse event.
             parsed = {}
             while True:
                 line = settings_file.readline()
                 if not line:
                     break
                 if re.search(r'%s' % EVENT_END, line):
                     # Add parsed setting to list.
                     if setting in parsed:
                         s = setting + ': ' + str(parsed[setting])
                         if s not in settings:
                             settings.append(s)
                     break

                 TryFindMetric(parsed, line)

     settings_file.close()
     return settings


 def ParseMetrics(filename, setting1, setting2):
     """Parses metrics from file.

   Args:
     filename: The name of the file.
     setting1: First setting for sorting metrics (e.g. width).
     setting2: Second setting for sorting metrics (e.g. CPU cores used).

   Returns:
     A dictionary holding parsed metrics.

   For example:
     metrics[key1][key2][measurement]

   metrics = {
   "width: 352": {
     "CPU cores used: 1.0": {
       "encode time (us)": [0.718005, 0.806925, 0.909726, 0.931835, 0.953642],
       "PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
       "bitrate (kbps)": [50, 100, 300, 500, 1000]
     },
     "CPU cores used: 2.0": {
       "encode time (us)": [0.718005, 0.806925, 0.909726, 0.931835, 0.953642],
       "PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
       "bitrate (kbps)": [50, 100, 300, 500, 1000]
     },
   },
   "width: 176": {
     "CPU cores used: 1.0": {
       "encode time (us)": [0.857897, 0.91608, 0.959173, 0.971116, 0.980961],
       "PSNR (dB)": [30.243646, 33.375592, 37.574387, 39.42184, 41.437897],
       "bitrate (kbps)": [50, 100, 300, 500, 1000]
     },
   }
   } """

     metrics = {}

     # Parse events.
     settings_file = open(filename)
     while True:
         line = settings_file.readline()
         if not line:
             break
         if re.search(r'%s' % EVENT_START, line):
             # Parse event.
             parsed = {}
             while True:
                 line = settings_file.readline()
                 if not line:
                     break
                 if re.search(r'%s' % EVENT_END, line):
                     # Add parsed values to metrics.
                     key1 = setting1 + ': ' + str(parsed[setting1])
                     key2 = setting2 + ': ' + str(parsed[setting2])
                     if key1 not in metrics:
                         metrics[key1] = {}
                     if key2 not in metrics[key1]:
                         metrics[key1][key2] = {}

                     for label in parsed:
                         if label not in metrics[key1][key2]:
                             metrics[key1][key2][label] = []
                         metrics[key1][key2][label].append(parsed[label])

                     break

                 TryFindMetric(parsed, line)

     settings_file.close()
     return metrics


 def TryFindMetric(parsed, line):
     for metric in METRICS_TO_PARSE:
         name = metric[0]
         label = metric[1]
         if re.search(r'%s' % name, line):
             found, value = GetMetric(name, line)
             if found:
                 parsed[label] = value
             return


 def GetMetric(name, string):
     # Float (e.g. bitrate = 98.8253).
     pattern = r'%s\s*[:=]\s*([+-]?\d+\.*\d*)' % name
     m = re.search(r'%s' % pattern, string)
     if m is not None:
         return StringToFloat(m.group(1))

     # Alphanumeric characters (e.g. codec type : VP8).
     pattern = r'%s\s*[:=]\s*(\w+)' % name
     m = re.search(r'%s' % pattern, string)
     if m is not None:
         return True, m.group(1)

     return False, -1


 def StringToFloat(value):
     try:
         value = float(value)
     except ValueError:
         print "Not a float, skipped %s" % value
         return False, -1

     return True, value


 def Plot(y_metric, x_metric, metrics):
     """Plots y_metric vs x_metric per key in metrics.

   For example:
     y_metric = 'PSNR (dB)'
     x_metric = 'bitrate (kbps)'
     metrics = {
       "CPU cores used: 1.0": {
         "PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
         "bitrate (kbps)": [50, 100, 300, 500, 1000]
       },
       "CPU cores used: 2.0": {
         "PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
         "bitrate (kbps)": [50, 100, 300, 500, 1000]
       },
     }
     """
     for key in sorted(metrics):
         data = metrics[key]
         if y_metric not in data:
             print "Failed to find metric: %s" % y_metric
             continue

         y = numpy.array(data[y_metric])
         x = numpy.array(data[x_metric])
         if len(y) != len(x):
             print "Length mismatch for %s, %s" % (y, x)
             continue

         label = y_metric + ' - ' + str(key)

         plt.plot(x,
                  y,
                  label=label,
                  linewidth=1.5,
                  marker='o',
                  markersize=5,
                  markeredgewidth=0.0)


 def PlotFigure(settings, y_metrics, x_metric, metrics, title):
     """Plots metrics in y_metrics list. One figure is plotted and each entry
   in the list is plotted in a subplot (and sorted per settings).

   For example:
     settings = ['width: 128.0', 'width: 160.0']. Sort subplot per setting.
     y_metrics = ['PSNR (dB)', 'PSNR (dB)']. Metric to plot per subplot.
     x_metric = 'bitrate (kbps)'

   """

     plt.figure()
     plt.suptitle(title, fontsize='large', fontweight='bold')
     settings.sort()
     rows = len(settings)
     cols = 1
     pos = 1
     while pos <= rows:
         plt.rc('grid', color=GRID_COLOR)
         ax = plt.subplot(rows, cols, pos)
         plt.grid()
         plt.setp(ax.get_xticklabels(), visible=(pos == rows), fontsize='large')
         plt.setp(ax.get_yticklabels(), fontsize='large')
         setting = settings[pos - 1]
         Plot(y_metrics[pos - 1], x_metric, metrics[setting])
         if setting.startswith(WIDTH[1]):
             plt.title(setting, fontsize='medium')
         plt.legend(fontsize='large', loc='best')
         pos += 1

     plt.xlabel(x_metric, fontsize='large')
     plt.subplots_adjust(left=0.06,
                         right=0.98,
                         bottom=0.05,
                         top=0.94,
                         hspace=0.08)


 def GetTitle(filename, setting):
     title = ''
     if setting != CODEC_IMPLEMENTATION_NAME[1] and setting != CODEC_TYPE[1]:
         codec_types = ParseSetting(filename, CODEC_TYPE[1])
         for i in range(0, len(codec_types)):
             title += codec_types[i] + ', '

     if setting != CORES[1]:
         cores = ParseSetting(filename, CORES[1])
         for i in range(0, len(cores)):
             title += cores[i].split('.')[0] + ', '

     if setting != FRAMERATE[1]:
         framerate = ParseSetting(filename, FRAMERATE[1])
         for i in range(0, len(framerate)):
             title += framerate[i].split('.')[0] + ', '

     if (setting != CODEC_IMPLEMENTATION_NAME[1]
             and setting != ENCODER_IMPLEMENTATION_NAME[1]):
         enc_names = ParseSetting(filename, ENCODER_IMPLEMENTATION_NAME[1])
         for i in range(0, len(enc_names)):
             title += enc_names[i] + ', '

     if (setting != CODEC_IMPLEMENTATION_NAME[1]
             and setting != DECODER_IMPLEMENTATION_NAME[1]):
         dec_names = ParseSetting(filename, DECODER_IMPLEMENTATION_NAME[1])
         for i in range(0, len(dec_names)):
             title += dec_names[i] + ', '

     filenames = ParseSetting(filename, FILENAME[1])
     title += filenames[0].split('_')[0]

     num_frames = ParseSetting(filename, NUM_FRAMES[1])
     for i in range(0, len(num_frames)):
         title += ' (' + num_frames[i].split('.')[0] + ')'

     return title


 def ToString(input_list):
     return ToStringWithoutMetric(input_list, ('', ''))


 def ToStringWithoutMetric(input_list, metric):
     i = 1
     output_str = ""
     for m in input_list:
         if m != metric:
             output_str = output_str + ("%s. %s\n" % (i, m[1]))
             i += 1
     return output_str


 def GetIdx(text_list):
     return int(raw_input(text_list)) - 1


 def main():
     filename = sys.argv[1]

     # Setup.
     idx_metric = GetIdx("Choose metric:\n0. All\n%s" % ToString(RESULTS))
     if idx_metric == -1:
         # Plot all metrics. One subplot for each metric.
         # Per subplot: metric vs bitrate (per resolution).
         cores = ParseSetting(filename, CORES[1])
         setting1 = CORES[1]
         setting2 = WIDTH[1]
         sub_keys = [cores[0]] * len(Y_METRICS)
         y_metrics = Y_METRICS
         x_metric = BITRATE[1]
     else:
         resolutions = ParseSetting(filename, WIDTH[1])
         idx = GetIdx("Select metric for x-axis:\n%s" % ToString(X_SETTINGS))
         if X_SETTINGS[idx] == BITRATE:
             idx = GetIdx("Plot per:\n%s" %
                          ToStringWithoutMetric(SUBPLOT_SETTINGS, BITRATE))
             idx_setting = METRICS_TO_PARSE.index(SUBPLOT_SETTINGS[idx])
             # Plot one metric. One subplot for each resolution.
             # Per subplot: metric vs bitrate (per setting).
             setting1 = WIDTH[1]
             setting2 = METRICS_TO_PARSE[idx_setting][1]
             sub_keys = resolutions
             y_metrics = [RESULTS[idx_metric][1]] * len(sub_keys)
             x_metric = BITRATE[1]
         else:
             # Plot one metric. One subplot for each resolution.
             # Per subplot: metric vs setting (per bitrate).
             setting1 = WIDTH[1]
             setting2 = BITRATE[1]
             sub_keys = resolutions
             y_metrics = [RESULTS[idx_metric][1]] * len(sub_keys)
             x_metric = X_SETTINGS[idx][1]

     metrics = ParseMetrics(filename, setting1, setting2)

     # Stretch fig size.
     figsize = plt.rcParams["figure.figsize"]
     figsize[0] *= FIG_SIZE_SCALE_FACTOR_X
     figsize[1] *= FIG_SIZE_SCALE_FACTOR_Y
     plt.rcParams["figure.figsize"] = figsize

     PlotFigure(sub_keys, y_metrics, x_metric, metrics,
                GetTitle(filename, setting2))

     plt.show()


 if __name__ == '__main__':
     main()
	# Copyright (c) 2017 The WebRTC project authors. All Rights Reserved.
	#
	# Use of this source code is governed by a BSD-style license
	# that can be found in the LICENSE file in the root of the source
	# tree. An additional intellectual property rights grant can be found
	# in the file PATENTS. All contributing project authors may
	# be found in the AUTHORS file in the root of the source tree.
	"""Plots statistics from WebRTC integration test logs.

	Usage: $ python plot_webrtc_test_logs.py filename.txt
	"""

	import numpy
	import sys
	import re

	import matplotlib.pyplot as plt

	# Log events.
	EVENT_START = 'RUN ] CodecSettings/VideoCodecTestParameterized.'
	EVENT_END = 'OK ] CodecSettings/VideoCodecTestParameterized.'

	# Metrics to plot, tuple: (name to parse in file, label to use when plotting).
	WIDTH = ('width', 'width')
	HEIGHT = ('height', 'height')
	FILENAME = ('filename', 'clip')
	CODEC_TYPE = ('codec_type', 'Codec')
	ENCODER_IMPLEMENTATION_NAME = ('enc_impl_name', 'enc name')
	DECODER_IMPLEMENTATION_NAME = ('dec_impl_name', 'dec name')
	CODEC_IMPLEMENTATION_NAME = ('codec_impl_name', 'codec name')
	CORES = ('num_cores', 'CPU cores used')
	DENOISING = ('denoising', 'denoising')
	RESILIENCE = ('resilience', 'resilience')
	ERROR_CONCEALMENT = ('error_concealment', 'error concealment')
	CPU_USAGE = ('cpu_usage_percent', 'CPU usage (%)')
	BITRATE = ('target_bitrate_kbps', 'target bitrate (kbps)')
	FRAMERATE = ('input_framerate_fps', 'fps')
	QP = ('avg_qp', 'QP avg')
	PSNR = ('avg_psnr', 'PSNR (dB)')
	SSIM = ('avg_ssim', 'SSIM')
	ENC_BITRATE = ('bitrate_kbps', 'encoded bitrate (kbps)')
	NUM_FRAMES = ('num_input_frames', 'num frames')
	NUM_DROPPED_FRAMES = ('num_dropped_frames', 'num dropped frames')
	TIME_TO_TARGET = ('time_to_reach_target_bitrate_sec',
	'time to reach target rate (sec)')
	ENCODE_SPEED_FPS = ('enc_speed_fps', 'encode speed (fps)')
	DECODE_SPEED_FPS = ('dec_speed_fps', 'decode speed (fps)')
	AVG_KEY_FRAME_SIZE = ('avg_key_frame_size_bytes', 'avg key frame size (bytes)')
	AVG_DELTA_FRAME_SIZE = ('avg_delta_frame_size_bytes',
	'avg delta frame size (bytes)')

	# Settings.
	SETTINGS = [
	WIDTH,
	HEIGHT,
	FILENAME,
	NUM_FRAMES,
	]

	# Settings, options for x-axis.
	X_SETTINGS = [
	CORES,
	FRAMERATE,
	DENOISING,
	RESILIENCE,
	ERROR_CONCEALMENT,
	BITRATE, # TODO(asapersson): Needs to be last.
	]

	# Settings, options for subplots.
	SUBPLOT_SETTINGS = [
	CODEC_TYPE,
	ENCODER_IMPLEMENTATION_NAME,
	DECODER_IMPLEMENTATION_NAME,
	CODEC_IMPLEMENTATION_NAME,
	] + X_SETTINGS

	# Results.
	RESULTS = [
	PSNR,
	SSIM,
	ENC_BITRATE,
	NUM_DROPPED_FRAMES,
	TIME_TO_TARGET,
	ENCODE_SPEED_FPS,
	DECODE_SPEED_FPS,
	QP,
	CPU_USAGE,
	AVG_KEY_FRAME_SIZE,
	AVG_DELTA_FRAME_SIZE,
	]

	METRICS_TO_PARSE = SETTINGS + SUBPLOT_SETTINGS + RESULTS

	Y_METRICS = [res[1] for res in RESULTS]

	# Parameters for plotting.
	FIG_SIZE_SCALE_FACTOR_X = 1.6
	FIG_SIZE_SCALE_FACTOR_Y = 1.8
	GRID_COLOR = [0.45, 0.45, 0.45]


	def ParseSetting(filename, setting):
	"""Parses setting from file.

	Args:
	filename: The name of the file.
	setting: Name of setting to parse (e.g. width).

	Returns:
	A list holding parsed settings, e.g. ['width: 128.0', 'width: 160.0'] """

	settings = []

	settings_file = open(filename)
	while True:
	line = settings_file.readline()
	if not line:
	break
	if re.search(r'%s' % EVENT_START, line):
	# Parse event.
	parsed = {}
	while True:
	line = settings_file.readline()
	if not line:
	break
	if re.search(r'%s' % EVENT_END, line):
	# Add parsed setting to list.
	if setting in parsed:
	s = setting + ': ' + str(parsed[setting])
	if s not in settings:
	settings.append(s)
	break

	TryFindMetric(parsed, line)

	settings_file.close()
	return settings


	def ParseMetrics(filename, setting1, setting2):
	"""Parses metrics from file.

	Args:
	filename: The name of the file.
	setting1: First setting for sorting metrics (e.g. width).
	setting2: Second setting for sorting metrics (e.g. CPU cores used).

	Returns:
	A dictionary holding parsed metrics.

	For example:
	metrics[key1][key2][measurement]

	metrics = {
	"width: 352": {
	"CPU cores used: 1.0": {
	"encode time (us)": [0.718005, 0.806925, 0.909726, 0.931835, 0.953642],
	"PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
	"bitrate (kbps)": [50, 100, 300, 500, 1000]
	},
	"CPU cores used: 2.0": {
	"encode time (us)": [0.718005, 0.806925, 0.909726, 0.931835, 0.953642],
	"PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
	"bitrate (kbps)": [50, 100, 300, 500, 1000]
	},
	},
	"width: 176": {
	"CPU cores used: 1.0": {
	"encode time (us)": [0.857897, 0.91608, 0.959173, 0.971116, 0.980961],
	"PSNR (dB)": [30.243646, 33.375592, 37.574387, 39.42184, 41.437897],
	"bitrate (kbps)": [50, 100, 300, 500, 1000]
	},
	}
	} """

	metrics = {}

	# Parse events.
	settings_file = open(filename)
	while True:
	line = settings_file.readline()
	if not line:
	break
	if re.search(r'%s' % EVENT_START, line):
	# Parse event.
	parsed = {}
	while True:
	line = settings_file.readline()
	if not line:
	break
	if re.search(r'%s' % EVENT_END, line):
	# Add parsed values to metrics.
	key1 = setting1 + ': ' + str(parsed[setting1])
	key2 = setting2 + ': ' + str(parsed[setting2])
	if key1 not in metrics:
	metrics[key1] = {}
	if key2 not in metrics[key1]:
	metrics[key1][key2] = {}

	for label in parsed:
	if label not in metrics[key1][key2]:
	metrics[key1][key2][label] = []
	metrics[key1][key2][label].append(parsed[label])

	break

	TryFindMetric(parsed, line)

	settings_file.close()
	return metrics


	def TryFindMetric(parsed, line):
	for metric in METRICS_TO_PARSE:
	name = metric[0]
	label = metric[1]
	if re.search(r'%s' % name, line):
	found, value = GetMetric(name, line)
	if found:
	parsed[label] = value
	return


	def GetMetric(name, string):
	# Float (e.g. bitrate = 98.8253).
	pattern = r'%s\s[:=]\s([+-]?\d+\.\d)' % name
	m = re.search(r'%s' % pattern, string)
	if m is not None:
	return StringToFloat(m.group(1))

	# Alphanumeric characters (e.g. codec type : VP8).
	pattern = r'%s\s[:=]\s(\w+)' % name
	m = re.search(r'%s' % pattern, string)
	if m is not None:
	return True, m.group(1)

	return False, -1


	def StringToFloat(value):
	try:
	value = float(value)
	except ValueError:
	print "Not a float, skipped %s" % value
	return False, -1

	return True, value


	def Plot(y_metric, x_metric, metrics):
	"""Plots y_metric vs x_metric per key in metrics.

	For example:
	y_metric = 'PSNR (dB)'
	x_metric = 'bitrate (kbps)'
	metrics = {
	"CPU cores used: 1.0": {
	"PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
	"bitrate (kbps)": [50, 100, 300, 500, 1000]
	},
	"CPU cores used: 2.0": {
	"PSNR (dB)": [25.546029, 29.465518, 34.723535, 36.428493, 38.686551],
	"bitrate (kbps)": [50, 100, 300, 500, 1000]
	},
	}
	"""
	for key in sorted(metrics):
	data = metrics[key]
	if y_metric not in data:
	print "Failed to find metric: %s" % y_metric
	continue

	y = numpy.array(data[y_metric])
	x = numpy.array(data[x_metric])
	if len(y) != len(x):
	print "Length mismatch for %s, %s" % (y, x)
	continue

	label = y_metric + ' - ' + str(key)

	plt.plot(x,
	y,
	label=label,
	linewidth=1.5,
	marker='o',
	markersize=5,
	markeredgewidth=0.0)


	def PlotFigure(settings, y_metrics, x_metric, metrics, title):
	"""Plots metrics in y_metrics list. One figure is plotted and each entry
	in the list is plotted in a subplot (and sorted per settings).

	For example:
	settings = ['width: 128.0', 'width: 160.0']. Sort subplot per setting.
	y_metrics = ['PSNR (dB)', 'PSNR (dB)']. Metric to plot per subplot.
	x_metric = 'bitrate (kbps)'

	"""

	plt.figure()
	plt.suptitle(title, fontsize='large', fontweight='bold')
	settings.sort()
	rows = len(settings)
	cols = 1
	pos = 1
	while pos <= rows:
	plt.rc('grid', color=GRID_COLOR)
	ax = plt.subplot(rows, cols, pos)
	plt.grid()
	plt.setp(ax.get_xticklabels(), visible=(pos == rows), fontsize='large')
	plt.setp(ax.get_yticklabels(), fontsize='large')
	setting = settings[pos - 1]
	Plot(y_metrics[pos - 1], x_metric, metrics[setting])
	if setting.startswith(WIDTH[1]):
	plt.title(setting, fontsize='medium')
	plt.legend(fontsize='large', loc='best')
	pos += 1

	plt.xlabel(x_metric, fontsize='large')
	plt.subplots_adjust(left=0.06,
	right=0.98,
	bottom=0.05,
	top=0.94,
	hspace=0.08)


	def GetTitle(filename, setting):
	title = ''
	if setting != CODEC_IMPLEMENTATION_NAME[1] and setting != CODEC_TYPE[1]:
	codec_types = ParseSetting(filename, CODEC_TYPE[1])
	for i in range(0, len(codec_types)):
	title += codec_types[i] + ', '

	if setting != CORES[1]:
	cores = ParseSetting(filename, CORES[1])
	for i in range(0, len(cores)):
	title += cores[i].split('.')[0] + ', '

	if setting != FRAMERATE[1]:
	framerate = ParseSetting(filename, FRAMERATE[1])
	for i in range(0, len(framerate)):
	title += framerate[i].split('.')[0] + ', '

	if (setting != CODEC_IMPLEMENTATION_NAME[1]
	and setting != ENCODER_IMPLEMENTATION_NAME[1]):
	enc_names = ParseSetting(filename, ENCODER_IMPLEMENTATION_NAME[1])
	for i in range(0, len(enc_names)):
	title += enc_names[i] + ', '

	if (setting != CODEC_IMPLEMENTATION_NAME[1]
	and setting != DECODER_IMPLEMENTATION_NAME[1]):
	dec_names = ParseSetting(filename, DECODER_IMPLEMENTATION_NAME[1])
	for i in range(0, len(dec_names)):
	title += dec_names[i] + ', '

	filenames = ParseSetting(filename, FILENAME[1])
	title += filenames[0].split('_')[0]

	num_frames = ParseSetting(filename, NUM_FRAMES[1])
	for i in range(0, len(num_frames)):
	title += ' (' + num_frames[i].split('.')[0] + ')'

	return title


	def ToString(input_list):
	return ToStringWithoutMetric(input_list, ('', ''))


	def ToStringWithoutMetric(input_list, metric):
	i = 1
	output_str = ""
	for m in input_list:
	if m != metric:
	output_str = output_str + ("%s. %s\n" % (i, m[1]))
	i += 1
	return output_str


	def GetIdx(text_list):
	return int(raw_input(text_list)) - 1


	def main():
	filename = sys.argv[1]

	# Setup.
	idx_metric = GetIdx("Choose metric:\n0. All\n%s" % ToString(RESULTS))
	if idx_metric == -1:
	# Plot all metrics. One subplot for each metric.
	# Per subplot: metric vs bitrate (per resolution).
	cores = ParseSetting(filename, CORES[1])
	setting1 = CORES[1]
	setting2 = WIDTH[1]
	sub_keys = [cores[0]] * len(Y_METRICS)
	y_metrics = Y_METRICS
	x_metric = BITRATE[1]
	else:
	resolutions = ParseSetting(filename, WIDTH[1])
	idx = GetIdx("Select metric for x-axis:\n%s" % ToString(X_SETTINGS))
	if X_SETTINGS[idx] == BITRATE:
	idx = GetIdx("Plot per:\n%s" %
	ToStringWithoutMetric(SUBPLOT_SETTINGS, BITRATE))
	idx_setting = METRICS_TO_PARSE.index(SUBPLOT_SETTINGS[idx])
	# Plot one metric. One subplot for each resolution.
	# Per subplot: metric vs bitrate (per setting).
	setting1 = WIDTH[1]
	setting2 = METRICS_TO_PARSE[idx_setting][1]
	sub_keys = resolutions
	y_metrics = [RESULTS[idx_metric][1]] * len(sub_keys)
	x_metric = BITRATE[1]
	else:
	# Plot one metric. One subplot for each resolution.
	# Per subplot: metric vs setting (per bitrate).
	setting1 = WIDTH[1]
	setting2 = BITRATE[1]
	sub_keys = resolutions
	y_metrics = [RESULTS[idx_metric][1]] * len(sub_keys)
	x_metric = X_SETTINGS[idx][1]

	metrics = ParseMetrics(filename, setting1, setting2)

	# Stretch fig size.
	figsize = plt.rcParams["figure.figsize"]
	figsize[0] *= FIG_SIZE_SCALE_FACTOR_X
	figsize[1] *= FIG_SIZE_SCALE_FACTOR_Y
	plt.rcParams["figure.figsize"] = figsize

	PlotFigure(sub_keys, y_metrics, x_metric, metrics,
	GetTitle(filename, setting2))

	plt.show()


	if __name__ == '__main__':
	main()