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287 lines
10 KiB
Python
287 lines
10 KiB
Python
#!/usr/bin/env python3
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'''
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Plot buffer pts and events in relation to the wall clock. The plots can be used
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to spot anomalies, such as processing gaps.
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How to run:
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1) generate a log
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GST_DEBUG="GST_TRACER:7" GST_TRACERS=stats GST_DEBUG_FILE=trace.log <application>
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2) generate the images
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python3 gsttr-tsplot.py trace.log <outdir>
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eog <outdir>/*.png
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'''
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# TODO:
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# - improve event plot
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# - ideally each event is a vertical line
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# http://stackoverflow.com/questions/35105672/vertical-lines-from-data-in-file-in-time-series-plot-using-gnuplot
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# - this won't work well if the event is e.g. 'qos'
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# - we could sort them by event type and separate them by double new-lines,
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# we'd then use 'index <x>' to plot them in different colors with
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# - buffer-pts should be ahead of clock time of the pipeline
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# - we don't have the clock ts in the log though
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import logging
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import os
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from subprocess import Popen, PIPE, DEVNULL
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from string import Template
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from tracer.analysis_runner import AnalysisRunner
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from tracer.analyzer import Analyzer
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from tracer.parser import Parser
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from tracer.structure import Structure
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logging.basicConfig(level=logging.WARNING)
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logger = logging.getLogger('gsttr-tsplot')
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_HANDLED_CLASSES = ('buffer', 'event', 'new-pad', 'new-element')
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_GST_BUFFER_FLAG_DISCONT = (1 << 6)
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_PLOT_SCRIPT_HEAD = Template(
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'''
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set term pngcairo truecolor size $width,$height font "Helvetica,14"
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set style line 1 lc rgb '#8b1a0e' pt 1 ps 1 lt 1 lw 1 # --- red
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set style line 2 lc rgb '#5e9c36' pt 6 ps 1 lt 1 lw 1 # --- green
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set style line 100 lc rgb '#999999' lt 0 lw 1
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set grid back ls 100
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set key font ",10"
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set label font ",10"
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set tics font ",10"
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set xlabel font ",10"
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set ylabel font ",10"
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''')
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_PLOT_SCRIPT_BODY = Template(
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'''
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set output '$png_file_name'
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set multiplot layout 3,1 title "$title\\n$subtitle"
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set xlabel ""
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set xrange [*:*] writeback
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set xtics format ""
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set ylabel "Buffer Time (sec.msec)" offset 1,0
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set yrange [*:*]
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set ytics
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plot '$buf_file_name' using 1:2 with linespoints ls 1 notitle
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set xrange restore
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set ylabel "Duration (sec.msec)" offset 1,0
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plot '$buf_file_name' using 1:3 with linespoints ls 1title "cycle", \
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'' using 1:4 with linespoints ls 2 title "duration"
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set xrange restore
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set xtics format "%g" scale .5 offset 0,.5
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set xlabel "Clock Time (sec.msec)" offset 0,1
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set ylabel "Events" offset 1,0
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set yrange [$ypos_max:10]
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set ytics format ""
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plot '$ev_file_name' using 1:4:3:(0) with vectors heads size screen 0.008,90 ls 1 notitle, \
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'' using 2:4 with points ls 1 notitle, \
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'' using 2:4:5 with labels font ',7' offset char 0,-0.5 notitle
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unset multiplot
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''')
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class TsPlot(Analyzer):
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'''Generate a timestamp plots from a tracer log.
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These show the buffer pts on the y-axis and the wall-clock time the buffer
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was produced on the x-axis. This helps to spot timing issues, such as
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stalled elements.
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'''
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def __init__(self, outdir, show_ghost_pads, size):
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super(TsPlot, self).__init__()
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self.outdir = outdir
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self.show_ghost_pads = show_ghost_pads
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self.params = {
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'width': size[0],
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'height': size[1],
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}
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self.buf_files = {}
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self.buf_cts = {}
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self.ev_files = {}
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self.element_names = {}
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self.element_info = {}
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self.pad_names = {}
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self.pad_info = {}
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self.ev_labels = {}
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self.ev_data = {}
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self.ev_ypos = {}
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def _get_data_file(self, files, key, name_template):
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data_file = files.get(key)
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if not data_file:
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pad_name = self.pad_names.get(key)
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if pad_name:
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file_name = name_template % (self.outdir, key, pad_name)
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data_file = open(file_name, 'w')
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files[key] = data_file
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return data_file
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def _log_event_data(self, pad_file, ix):
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data = self.ev_data.get(ix)
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if not data:
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return
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line = self.ev_labels[ix]
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ct = data['ct']
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x1 = data['first-ts']
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# TODO: scale 'y' according to max-y of buf or do a multiplot
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y = (1 + data['ypos']) * -10
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if ct == 1:
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pad_file.write('%f %f %f %f "%s"\n' % (x1, x1, 0.0, y, line))
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else:
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x2 = data['last-ts']
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xd = (x2 - x1)
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xm = x1 + xd / 2
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pad_file.write('%f %f %f %f "%s (%d)"\n' % (x1, xm, xd, y, line, ct))
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def _log_event(self, s):
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# build a [ts, event-name] data file
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ix = int(s.values['pad-ix'])
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pad_file = self._get_data_file(self.ev_files, ix, '%s/ev_%d_%s.dat')
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if not pad_file:
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return
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# convert timestamps to seconds
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x = int(s.values['ts']) / 1e9
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# some events fire often, labeling each would be unreadable
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# so we aggregate a series of events of the same type
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line = s.values['name']
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if line == self.ev_labels.get(ix):
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# count lines and track last ts
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data = self.ev_data[ix]
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data['ct'] += 1
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data['last-ts'] = x
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else:
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self._log_event_data(pad_file, ix)
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# start new data, assign a -y coord by event type
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if ix not in self.ev_ypos:
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ypos = {}
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self.ev_ypos[ix] = ypos
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else:
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ypos = self.ev_ypos[ix]
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if line in ypos:
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y = ypos[line]
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else:
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y = len(ypos)
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ypos[line] = y
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self.ev_labels[ix] = line
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self.ev_data[ix] = {
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'ct': 1,
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'first-ts': x,
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'ypos': y,
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}
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def _log_buffer(self, s):
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if not int(s.values['have-buffer-pts']):
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return
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# build a [ts, buffer-pts] data file
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ix = int(s.values['pad-ix'])
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pad_file = self._get_data_file(self.buf_files, ix, '%s/buf_%d_%s.dat')
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if not pad_file:
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return
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flags = int(s.values['buffer-flags'])
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if flags & _GST_BUFFER_FLAG_DISCONT:
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pad_file.write('\n')
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# convert timestamps to e.g. seconds
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cts = int(s.values['ts']) / 1e9
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pts = int(s.values['buffer-pts']) / 1e9
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dur = int(s.values['buffer-duration']) / 1e9
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if ix not in self.buf_cts:
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dcts = 0
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else:
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dcts = cts - self.buf_cts[ix]
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self.buf_cts[ix] = cts
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pad_file.write('%f %f %f %f\n' % (cts, pts, dcts, dur))
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def handle_tracer_entry(self, event):
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if event[Parser.F_FUNCTION]:
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return
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msg = event[Parser.F_MESSAGE]
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p = msg.find(',')
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if p == -1:
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return
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entry_name = msg[:p]
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if entry_name not in _HANDLED_CLASSES:
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return
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try:
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s = Structure(msg)
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except ValueError:
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logger.warning("failed to parse: '%s'", msg)
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return
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if entry_name == 'new-element':
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ix = int(s.values['ix'])
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self.element_names[ix] = s.values['name']
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self.element_info[ix] = 'Element Type: %s' % s.values['type']
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elif entry_name == 'new-pad':
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pad_type = s.values['type']
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if self.show_ghost_pads or pad_type not in ['GstGhostPad', 'GstProxyPad']:
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parent_ix = int(s.values['parent-ix'])
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parent_name = self.element_names.get(parent_ix, '')
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ix = int(s.values['ix'])
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self.pad_names[ix] = '%s.%s' % (parent_name, s.values['name'])
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self.pad_info[ix] = '(%s, Pad Type: %s)' % (
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self.element_info.get(parent_ix, ''), pad_type)
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elif entry_name == 'event':
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self._log_event(s)
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else: # 'buffer'
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self._log_buffer(s)
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def report(self):
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for ix, pad_file in self.ev_files.items():
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self._log_event_data(pad_file, ix)
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pad_file.close()
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script = _PLOT_SCRIPT_HEAD.substitute(self.params)
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for ix, pad_file in self.buf_files.items():
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pad_file.close()
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name = self.pad_names[ix]
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buf_file_name = '%s/buf_%d_%s.dat' % (self.outdir, ix, name)
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ev_file_name = '%s/ev_%d_%s.dat' % (self.outdir, ix, name)
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png_file_name = '%s/%d_%s.png' % (self.outdir, ix, name)
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sub_title = self.pad_info[ix]
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ypos_max = (2 + len(self.ev_ypos[ix])) * -10
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script += _PLOT_SCRIPT_BODY.substitute(self.params, title=name,
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subtitle=sub_title, buf_file_name=buf_file_name,
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ev_file_name=ev_file_name, png_file_name=png_file_name,
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ypos_max=ypos_max)
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# plot PNGs
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p = Popen(['gnuplot'], stdout=DEVNULL, stdin=PIPE)
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p.communicate(input=script.encode('utf-8'))
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# cleanup
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for ix, pad_file in self.buf_files.items():
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name = self.pad_names[ix]
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buf_file_name = '%s/buf_%d_%s.dat' % (self.outdir, ix, name)
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os.unlink(buf_file_name)
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for ix, pad_file in self.ev_files.items():
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name = self.pad_names[ix]
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ev_file_name = '%s/ev_%d_%s.dat' % (self.outdir, ix, name)
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os.unlink(ev_file_name)
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if __name__ == '__main__':
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import argparse
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parser = argparse.ArgumentParser()
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parser.add_argument('file', nargs='?', default='debug.log')
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parser.add_argument('outdir', nargs='?', default='tsplot')
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parser.add_argument('-g', '--ghost-pads', action='store_true',
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help='also plot data for ghost-pads')
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parser.add_argument('-s', '--size', action='store', default='1600x600',
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help='graph size as WxH')
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args = parser.parse_args()
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os.makedirs(args.outdir, exist_ok=True)
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size = [int(s) for s in args.size.split('x')]
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with Parser(args.file) as log:
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tsplot = TsPlot(args.outdir, args.ghost_pads, size)
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runner = AnalysisRunner(log)
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runner.add_analyzer(tsplot)
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runner.run()
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tsplot.report()
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