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https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs.git
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2a54d57968
Fix crash when drawing more dataset than the number of colors.
157 lines
4.9 KiB
Python
157 lines
4.9 KiB
Python
import argparse
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import csv
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import re
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import matplotlib
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import matplotlib.pyplot as plt
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import matplotlib.patches as mpatches
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parser = argparse.ArgumentParser()
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parser.add_argument("file", help="Input file with queue levels")
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parser.add_argument("--include-filter", help="Regular expression for queue names that should be included")
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parser.add_argument("--exclude-filter", help="Regular expression for queue names that should be excluded")
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parser.add_argument("--bytes", help="include bytes levels", action="store_true")
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parser.add_argument("--time", help="include time levels (default if none of the others are enabled)", action="store_true")
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parser.add_argument("--buffers", help="include buffers levels", action="store_true")
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parser.add_argument("--no-max", help="do not include max levels (enabled by default)", action="store_true")
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args = parser.parse_args()
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include_filter = None
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if args.include_filter is not None:
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include_filter = re.compile(args.include_filter)
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exclude_filter = None
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if args.exclude_filter is not None:
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exclude_filter = re.compile(args.exclude_filter)
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queues = {}
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with open(args.file, mode='r', encoding='utf_8', newline='') as csvfile:
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reader = csv.reader(csvfile, delimiter=',', quotechar='|')
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for row in reader:
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if len(row) != 9:
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continue
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if include_filter is not None and not include_filter.match(row[1]):
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continue
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if exclude_filter is not None and exclude_filter.match(row[1]):
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continue
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if not row[1] in queues:
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queues[row[1]] = {
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'cur-level-bytes': [],
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'cur-level-time': [],
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'cur-level-buffers': [],
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'max-size-bytes': [],
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'max-size-time': [],
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'max-size-buffers': [],
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}
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wallclock = float(row[0]) / 1000000000.0
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queues[row[1]]['cur-level-bytes'].append((wallclock, int(row[3])))
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queues[row[1]]['cur-level-time'].append((wallclock, float(row[4]) / 1000000000.0))
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queues[row[1]]['cur-level-buffers'].append((wallclock, int(row[5])))
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queues[row[1]]['max-size-bytes'].append((wallclock, int(row[6])))
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queues[row[1]]['max-size-time'].append((wallclock, float(row[7]) / 1000000000.0))
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queues[row[1]]['max-size-buffers'].append((wallclock, int(row[8])))
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matplotlib.rcParams['figure.dpi'] = 200
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prop_cycle = plt.rcParams['axes.prop_cycle']
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colors = prop_cycle.by_key()['color']
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num_plots = 0
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axes_names = []
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if args.buffers:
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num_plots += 1
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axes_names.append("buffers")
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if args.time:
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num_plots += 1
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axes_names.append("time (s)")
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if args.bytes:
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num_plots += 1
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axes_names.append("bytes")
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if num_plots == 0:
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num_plots += 1
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axes_names.append("time (s)")
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fig, axes = plt.subplots(num_plots, sharex=True)
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if num_plots == 1:
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axes = [axes]
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axes[0].set_xlabel("wallclock (s)")
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axes[0].set_ylabel(axes_names[0])
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axes[0].tick_params(axis='y')
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if num_plots > 1:
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axes[1].set_ylabel(axes_names[1])
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if num_plots > 2:
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axes[2].set_ylabel(axes_names[2])
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patches = []
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for (i, (queue, values)) in enumerate(queues.items()):
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# cycle colors
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i = i % len(colors)
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axis = 0
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if args.buffers:
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axes[axis].plot(
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[x[0] for x in values['cur-level-buffers']],
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[x[1] for x in values['cur-level-buffers']],
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'.', label = '{}: cur-level-buffers'.format(queue),
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color = colors[i],
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)
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if not args.no_max:
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axes[axis].plot(
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[x[0] for x in values['max-size-buffers']],
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[x[1] for x in values['max-size-buffers']],
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'-', label = '{}: max-size-buffers'.format(queue),
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color = colors[i],
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)
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axis += 1
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if args.time:
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axes[axis].plot(
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[x[0] for x in values['cur-level-time']],
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[x[1] for x in values['cur-level-time']],
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'.', label = '{}: cur-level-time'.format(queue),
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color = colors[i],
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)
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if not args.no_max:
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axes[axis].plot(
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[x[0] for x in values['max-size-time']],
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[x[1] for x in values['max-size-time']],
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'-', label = '{}: max-size-time'.format(queue),
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color = colors[i],
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)
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axis += 1
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if args.bytes:
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axes[axis].plot(
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[x[0] for x in values['cur-level-bytes']],
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[x[1] for x in values['cur-level-bytes']],
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'.', label = '{}: cur-level-bytes'.format(queue),
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color = colors[i],
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)
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if not args.no_max:
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axes[axis].plot(
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[x[0] for x in values['max-size-bytes']],
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[x[1] for x in values['max-size-bytes']],
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'-', label = '{}: max-size-bytes'.format(queue),
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color = colors[i],
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)
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axis += 1
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patches.append(mpatches.Patch(color=colors[i], label=queue))
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fig.tight_layout()
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plt.legend(handles=patches, loc='best')
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plt.show()
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