470 lines
15 KiB
Python
Executable File
470 lines
15 KiB
Python
Executable File
#!/usr/bin/env python
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# Copyright (c) 2015 The WebRTC project authors. All Rights Reserved.
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#
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# Use of this source code is governed by a BSD-style license
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# that can be found in the LICENSE file in the root of the source
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# tree. An additional intellectual property rights grant can be found
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# in the file PATENTS. All contributing project authors may
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# be found in the AUTHORS file in the root of the source tree.
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"""Generate graphs for data generated by loopback tests.
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Usage examples:
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Show end to end time for a single full stack test.
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./full_stack_tests_plot.py -df end_to_end -o 600 --frames 1000 vp9_data.txt
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Show simultaneously PSNR and encoded frame size for two different runs of
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full stack test. Averaged over a cycle of 200 frames. Used e.g. for
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screenshare slide test.
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./full_stack_tests_plot.py -c 200 -df psnr -drf encoded_frame_size \\
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before.txt after.txt
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Similar to the previous test, but multiple graphs.
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./full_stack_tests_plot.py -c 200 -df psnr vp8.txt vp9.txt --next \\
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-c 200 -df sender_time vp8.txt vp9.txt --next \\
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-c 200 -df end_to_end vp8.txt vp9.txt
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"""
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import argparse
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from collections import defaultdict
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import itertools
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import sys
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import matplotlib.pyplot as plt
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import numpy
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# Fields
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DROPPED = 0
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INPUT_TIME = 1 # ms (timestamp)
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SEND_TIME = 2 # ms (timestamp)
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RECV_TIME = 3 # ms (timestamp)
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RENDER_TIME = 4 # ms (timestamp)
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ENCODED_FRAME_SIZE = 5 # bytes
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PSNR = 6
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SSIM = 7
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ENCODE_TIME = 8 # ms (time interval)
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TOTAL_RAW_FIELDS = 9
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SENDER_TIME = TOTAL_RAW_FIELDS + 0
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RECEIVER_TIME = TOTAL_RAW_FIELDS + 1
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END_TO_END = TOTAL_RAW_FIELDS + 2
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RENDERED_DELTA = TOTAL_RAW_FIELDS + 3
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FIELD_MASK = 255
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# Options
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HIDE_DROPPED = 256
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RIGHT_Y_AXIS = 512
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# internal field id, field name, title
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_FIELDS = [
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# Raw
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(DROPPED, "dropped", "dropped"),
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(INPUT_TIME, "input_time_ms", "input time"),
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(SEND_TIME, "send_time_ms", "send time"),
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(RECV_TIME, "recv_time_ms", "recv time"),
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(ENCODED_FRAME_SIZE, "encoded_frame_size", "encoded frame size"),
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(PSNR, "psnr", "PSNR"),
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(SSIM, "ssim", "SSIM"),
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(RENDER_TIME, "render_time_ms", "render time"),
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(ENCODE_TIME, "encode_time_ms", "encode time"),
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# Auto-generated
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(SENDER_TIME, "sender_time", "sender time"),
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(RECEIVER_TIME, "receiver_time", "receiver time"),
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(END_TO_END, "end_to_end", "end to end"),
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(RENDERED_DELTA, "rendered_delta", "rendered delta"),
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]
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NAME_TO_ID = {field[1]: field[0] for field in _FIELDS}
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ID_TO_TITLE = {field[0]: field[2] for field in _FIELDS}
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def FieldArgToId(arg):
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if arg == "none":
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return None
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if arg in NAME_TO_ID:
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return NAME_TO_ID[arg]
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if arg + "_ms" in NAME_TO_ID:
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return NAME_TO_ID[arg + "_ms"]
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raise Exception("Unrecognized field name \"{}\"".format(arg))
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class PlotLine(object):
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"""Data for a single graph line."""
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def __init__(self, label, values, flags):
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self.label = label
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self.values = values
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self.flags = flags
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class Data(object):
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"""Object representing one full stack test."""
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def __init__(self, filename):
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self.title = ""
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self.length = 0
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self.samples = defaultdict(list)
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self._ReadSamples(filename)
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def _ReadSamples(self, filename):
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"""Reads graph data from the given file."""
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f = open(filename)
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it = iter(f)
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self.title = it.next().strip()
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self.length = int(it.next())
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field_names = [name.strip() for name in it.next().split()]
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field_ids = [NAME_TO_ID[name] for name in field_names]
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for field_id in field_ids:
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self.samples[field_id] = [0.0] * self.length
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for sample_id in xrange(self.length):
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for col, value in enumerate(it.next().split()):
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self.samples[field_ids[col]][sample_id] = float(value)
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self._SubtractFirstInputTime()
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self._GenerateAdditionalData()
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f.close()
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def _SubtractFirstInputTime(self):
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offset = self.samples[INPUT_TIME][0]
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for field in [INPUT_TIME, SEND_TIME, RECV_TIME, RENDER_TIME]:
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if field in self.samples:
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self.samples[field] = [x - offset for x in self.samples[field]]
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def _GenerateAdditionalData(self):
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"""Calculates sender time, receiver time etc. from the raw data."""
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s = self.samples
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last_render_time = 0
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for field_id in [
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SENDER_TIME, RECEIVER_TIME, END_TO_END, RENDERED_DELTA
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]:
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s[field_id] = [0] * self.length
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for k in range(self.length):
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s[SENDER_TIME][k] = s[SEND_TIME][k] - s[INPUT_TIME][k]
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decoded_time = s[RENDER_TIME][k]
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s[RECEIVER_TIME][k] = decoded_time - s[RECV_TIME][k]
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s[END_TO_END][k] = decoded_time - s[INPUT_TIME][k]
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if not s[DROPPED][k]:
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if k > 0:
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s[RENDERED_DELTA][k] = decoded_time - last_render_time
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last_render_time = decoded_time
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def _Hide(self, values):
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"""
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Replaces values for dropped frames with None.
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These values are then skipped by the Plot() method.
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"""
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return [
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None if self.samples[DROPPED][k] else values[k]
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for k in range(len(values))
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]
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def AddSamples(self, config, target_lines_list):
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"""Creates graph lines from the current data set with given config."""
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for field in config.fields:
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# field is None means the user wants just to skip the color.
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if field is None:
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target_lines_list.append(None)
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continue
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field_id = field & FIELD_MASK
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values = self.samples[field_id]
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if field & HIDE_DROPPED:
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values = self._Hide(values)
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target_lines_list.append(
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PlotLine(self.title + " " + ID_TO_TITLE[field_id], values,
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field & ~FIELD_MASK))
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def AverageOverCycle(values, length):
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"""
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Returns the list:
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[
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avg(values[0], values[length], ...),
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avg(values[1], values[length + 1], ...),
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...
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avg(values[length - 1], values[2 * length - 1], ...),
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]
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Skips None values when calculating the average value.
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"""
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total = [0.0] * length
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count = [0] * length
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for k, val in enumerate(values):
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if val is not None:
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total[k % length] += val
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count[k % length] += 1
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result = [0.0] * length
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for k in range(length):
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result[k] = total[k] / count[k] if count[k] else None
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return result
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class PlotConfig(object):
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"""Object representing a single graph."""
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def __init__(self,
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fields,
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data_list,
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cycle_length=None,
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frames=None,
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offset=0,
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output_filename=None,
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title="Graph"):
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self.fields = fields
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self.data_list = data_list
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self.cycle_length = cycle_length
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self.frames = frames
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self.offset = offset
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self.output_filename = output_filename
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self.title = title
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def Plot(self, ax1):
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lines = []
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for data in self.data_list:
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if not data:
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# Add None lines to skip the colors.
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lines.extend([None] * len(self.fields))
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else:
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data.AddSamples(self, lines)
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def _SliceValues(values):
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if self.offset:
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values = values[self.offset:]
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if self.frames:
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values = values[:self.frames]
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return values
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length = None
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for line in lines:
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if line is None:
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continue
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line.values = _SliceValues(line.values)
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if self.cycle_length:
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line.values = AverageOverCycle(line.values, self.cycle_length)
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if length is None:
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length = len(line.values)
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elif length != len(line.values):
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raise Exception("All arrays should have the same length!")
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ax1.set_xlabel("Frame", fontsize="large")
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if any(line.flags & RIGHT_Y_AXIS for line in lines if line):
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ax2 = ax1.twinx()
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ax2.set_xlabel("Frame", fontsize="large")
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else:
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ax2 = None
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# Have to implement color_cycle manually, due to two scales in a graph.
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color_cycle = ["b", "r", "g", "c", "m", "y", "k"]
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color_iter = itertools.cycle(color_cycle)
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for line in lines:
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if not line:
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color_iter.next()
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continue
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if self.cycle_length:
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x = numpy.array(range(self.cycle_length))
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else:
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x = numpy.array(
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range(self.offset, self.offset + len(line.values)))
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y = numpy.array(line.values)
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ax = ax2 if line.flags & RIGHT_Y_AXIS else ax1
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ax.Plot(x,
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y,
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"o-",
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label=line.label,
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markersize=3.0,
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linewidth=1.0,
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color=color_iter.next())
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ax1.grid(True)
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if ax2:
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ax1.legend(loc="upper left", shadow=True, fontsize="large")
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ax2.legend(loc="upper right", shadow=True, fontsize="large")
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else:
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ax1.legend(loc="best", shadow=True, fontsize="large")
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def LoadFiles(filenames):
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result = []
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for filename in filenames:
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if filename in LoadFiles.cache:
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result.append(LoadFiles.cache[filename])
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else:
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data = Data(filename)
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LoadFiles.cache[filename] = data
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result.append(data)
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return result
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LoadFiles.cache = {}
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def GetParser():
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class CustomAction(argparse.Action):
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def __call__(self, parser, namespace, values, option_string=None):
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if "ordered_args" not in namespace:
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namespace.ordered_args = []
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namespace.ordered_args.append((self.dest, values))
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parser = argparse.ArgumentParser(
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description=__doc__,
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formatter_class=argparse.RawDescriptionHelpFormatter)
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parser.add_argument("-c",
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"--cycle_length",
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nargs=1,
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action=CustomAction,
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type=int,
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help="Cycle length over which to average the values.")
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parser.add_argument(
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"-f",
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"--field",
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nargs=1,
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action=CustomAction,
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help="Name of the field to show. Use 'none' to skip a color.")
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parser.add_argument("-r",
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"--right",
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nargs=0,
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action=CustomAction,
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help="Use right Y axis for given field.")
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parser.add_argument("-d",
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"--drop",
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nargs=0,
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action=CustomAction,
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help="Hide values for dropped frames.")
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parser.add_argument("-o",
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"--offset",
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nargs=1,
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action=CustomAction,
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type=int,
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help="Frame offset.")
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parser.add_argument("-n",
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"--next",
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nargs=0,
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action=CustomAction,
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help="Separator for multiple graphs.")
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parser.add_argument(
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"--frames",
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nargs=1,
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action=CustomAction,
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type=int,
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help="Frame count to show or take into account while averaging.")
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parser.add_argument("-t",
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"--title",
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nargs=1,
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action=CustomAction,
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help="Title of the graph.")
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parser.add_argument("-O",
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"--output_filename",
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nargs=1,
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action=CustomAction,
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help="Use to save the graph into a file. "
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"Otherwise, a window will be shown.")
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parser.add_argument(
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"files",
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nargs="+",
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action=CustomAction,
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help="List of text-based files generated by loopback tests.")
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return parser
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def _PlotConfigFromArgs(args, graph_num):
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# Pylint complains about using kwargs, so have to do it this way.
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cycle_length = None
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frames = None
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offset = 0
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output_filename = None
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title = "Graph"
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fields = []
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files = []
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mask = 0
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for key, values in args:
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if key == "cycle_length":
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cycle_length = values[0]
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elif key == "frames":
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frames = values[0]
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elif key == "offset":
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offset = values[0]
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elif key == "output_filename":
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output_filename = values[0]
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elif key == "title":
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title = values[0]
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elif key == "drop":
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mask |= HIDE_DROPPED
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elif key == "right":
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mask |= RIGHT_Y_AXIS
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elif key == "field":
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field_id = FieldArgToId(values[0])
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fields.append(field_id | mask if field_id is not None else None)
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mask = 0 # Reset mask after the field argument.
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elif key == "files":
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files.extend(values)
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if not files:
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raise Exception(
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"Missing file argument(s) for graph #{}".format(graph_num))
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if not fields:
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raise Exception(
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"Missing field argument(s) for graph #{}".format(graph_num))
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return PlotConfig(fields,
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LoadFiles(files),
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cycle_length=cycle_length,
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frames=frames,
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offset=offset,
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output_filename=output_filename,
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title=title)
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def PlotConfigsFromArgs(args):
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"""Generates plot configs for given command line arguments."""
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# The way it works:
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# First we detect separators -n/--next and split arguments into groups, one
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# for each plot. For each group, we partially parse it with
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# argparse.ArgumentParser, modified to remember the order of arguments.
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# Then we traverse the argument list and fill the PlotConfig.
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args = itertools.groupby(args, lambda x: x in ["-n", "--next"])
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prep_args = list(list(group) for match, group in args if not match)
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parser = GetParser()
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plot_configs = []
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for index, raw_args in enumerate(prep_args):
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graph_args = parser.parse_args(raw_args).ordered_args
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plot_configs.append(_PlotConfigFromArgs(graph_args, index))
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return plot_configs
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def ShowOrSavePlots(plot_configs):
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for config in plot_configs:
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fig = plt.figure(figsize=(14.0, 10.0))
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ax = fig.add_subPlot(1, 1, 1)
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plt.title(config.title)
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config.Plot(ax)
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if config.output_filename:
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print "Saving to", config.output_filename
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fig.savefig(config.output_filename)
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plt.close(fig)
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plt.show()
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if __name__ == "__main__":
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ShowOrSavePlots(PlotConfigsFromArgs(sys.argv[1:]))
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