upstream/mercurial-mirror Files · contrib/perf-utils/perf-revlog-write-plot.py

compare-disco: support for `file` nodes specification...

compare-disco: support for `file` nodes specification This leverage the `nodefromfile` feature in core. This make it possible for callers to no longer pay the subset computation cost (and to make sure the subset is the right one, even when the base repository is different)

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             perf-revlog-write-plot.py
        
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      #!/usr/bin/env python3

      #

      #  Copyright 2018 Paul Morelle <Paul.Morelle@octobus.net>

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      #

      # This script use the output of `hg perfrevlogwrite -T json --details` to draw

      # various plot related to write performance in a revlog

      #

      # usage: perf-revlog-write-plot.py details.json

      import json

      import re

      import numpy as np

      import scipy.signal

      from matplotlib import (

          pyplot as plt,

          ticker as mticker,

      )

      def plot(data, title=None):

          items = {}

          re_title = re.compile(r'^revisions #\d+ of \d+, rev (\d+)$')

          for item in data:

              m = re_title.match(item['title'])

              if m is None:

                  continue

              rev = int(m.group(1))

              items[rev] = item

          min_rev = min(items.keys())

          max_rev = max(items.keys())

          ary = np.empty((2, max_rev - min_rev + 1))

          for rev, item in items.items():

              ary[0][rev - min_rev] = rev

              ary[1][rev - min_rev] = item['wall']

          fig = plt.figure()

          comb_plt = fig.add_subplot(211)

          other_plt = fig.add_subplot(212)

          comb_plt.plot(

              ary[0], np.cumsum(ary[1]), color='red', linewidth=1, label='comb'

          )

          plots = []

          p = other_plt.plot(ary[0], ary[1], color='red', linewidth=1, label='wall')

          plots.append(p)

          colors = {

              10: ('green', 'xkcd:grass green'),

              100: ('blue', 'xkcd:bright blue'),

              1000: ('purple', 'xkcd:dark pink'),

          }

          for n, color in colors.items():

              avg_n = np.convolve(ary[1], np.full(n, 1.0 / n), 'valid')

              p = other_plt.plot(

                  ary[0][n - 1 :],

                  avg_n,

                  color=color[0],

                  linewidth=1,

                  label='avg time last %d' % n,

              )

              plots.append(p)

              med_n = scipy.signal.medfilt(ary[1], n + 1)

              p = other_plt.plot(

                  ary[0],

                  med_n,

                  color=color[1],

                  linewidth=1,

                  label='median time last %d' % n,

              )

              plots.append(p)

          formatter = mticker.ScalarFormatter()

          formatter.set_scientific(False)

          formatter.set_useOffset(False)

          comb_plt.grid()

          comb_plt.xaxis.set_major_formatter(formatter)

          comb_plt.legend()

          other_plt.grid()

          other_plt.xaxis.set_major_formatter(formatter)

          leg = other_plt.legend()

          leg2plot = {}

          for legline, plot in zip(leg.get_lines(), plots):

              legline.set_picker(5)

              leg2plot[legline] = plot

          def onpick(event):

              legline = event.artist

              plot = leg2plot[legline]

              visible = not plot[0].get_visible()

              for l in plot:

                  l.set_visible(visible)

              if visible:

                  legline.set_alpha(1.0)

              else:

                  legline.set_alpha(0.2)

              fig.canvas.draw()

          if title is not None:

              fig.canvas.set_window_title(title)

          fig.canvas.mpl_connect('pick_event', onpick)

          plt.show()

      if __name__ == '__main__':

          import sys

          if len(sys.argv) > 1:

              print('reading from %r' % sys.argv[1])

              with open(sys.argv[1], 'r') as fp:

                  plot(json.load(fp), title=sys.argv[1])

          else:

              print('reading from stdin')

              plot(json.load(sys.stdin))

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				#!/usr/bin/env python3
				#
				# Copyright 2018 Paul Morelle <Paul.Morelle@octobus.net>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.
				#
				# This script use the output of `hg perfrevlogwrite -T json --details` to draw
				# various plot related to write performance in a revlog
				#
				# usage: perf-revlog-write-plot.py details.json
				import json
				import re

				import numpy as np
				import scipy.signal

				from matplotlib import (
				pyplot as plt,
				ticker as mticker,
				)


				def plot(data, title=None):
				items = {}
				re_title = re.compile(r'^revisions #\d+ of \d+, rev (\d+)$')
				for item in data:
				m = re_title.match(item['title'])
				if m is None:
				continue

				rev = int(m.group(1))
				items[rev] = item

				min_rev = min(items.keys())
				max_rev = max(items.keys())
				ary = np.empty((2, max_rev - min_rev + 1))
				for rev, item in items.items():
				ary[0][rev - min_rev] = rev
				ary[1][rev - min_rev] = item['wall']

				fig = plt.figure()
				comb_plt = fig.add_subplot(211)
				other_plt = fig.add_subplot(212)

				comb_plt.plot(
				ary[0], np.cumsum(ary[1]), color='red', linewidth=1, label='comb'
				)

				plots = []
				p = other_plt.plot(ary[0], ary[1], color='red', linewidth=1, label='wall')
				plots.append(p)

				colors = {
				10: ('green', 'xkcd:grass green'),
				100: ('blue', 'xkcd:bright blue'),
				1000: ('purple', 'xkcd:dark pink'),
				}
				for n, color in colors.items():
				avg_n = np.convolve(ary[1], np.full(n, 1.0 / n), 'valid')
				p = other_plt.plot(
				ary[0][n - 1 :],
				avg_n,
				color=color[0],
				linewidth=1,
				label='avg time last %d' % n,
				)
				plots.append(p)

				med_n = scipy.signal.medfilt(ary[1], n + 1)
				p = other_plt.plot(
				ary[0],
				med_n,
				color=color[1],
				linewidth=1,
				label='median time last %d' % n,
				)
				plots.append(p)

				formatter = mticker.ScalarFormatter()
				formatter.set_scientific(False)
				formatter.set_useOffset(False)

				comb_plt.grid()
				comb_plt.xaxis.set_major_formatter(formatter)
				comb_plt.legend()

				other_plt.grid()
				other_plt.xaxis.set_major_formatter(formatter)
				leg = other_plt.legend()
				leg2plot = {}
				for legline, plot in zip(leg.get_lines(), plots):
				legline.set_picker(5)
				leg2plot[legline] = plot

				def onpick(event):
				legline = event.artist
				plot = leg2plot[legline]
				visible = not plot[0].get_visible()
				for l in plot:
				l.set_visible(visible)

				if visible:
				legline.set_alpha(1.0)
				else:
				legline.set_alpha(0.2)
				fig.canvas.draw()

				if title is not None:
				fig.canvas.set_window_title(title)
				fig.canvas.mpl_connect('pick_event', onpick)

				plt.show()


				if __name__ == '__main__':
				import sys

				if len(sys.argv) > 1:
				print('reading from %r' % sys.argv[1])
				with open(sys.argv[1], 'r') as fp:
				plot(json.load(fp), title=sys.argv[1])
				else:
				print('reading from stdin')
				plot(json.load(sys.stdin))