src/v8/tools/ignition/bytecode_dispatches_report.py - cobalt - Git at Google

 #! /usr/bin/python
 #
 # Copyright 2016 the V8 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.
 #

 import argparse
 import heapq
 import json
 from matplotlib import colors
 from matplotlib import pyplot
 import numpy
 import struct
 import sys


 __DESCRIPTION = """
 Process v8.ignition_dispatches_counters.json and list top counters,
 or plot a dispatch heatmap.

 Please note that those handlers that may not or will never dispatch
 (e.g. Return or Throw) do not show up in the results.
 """


 __HELP_EPILOGUE = """
 examples:
   # Print the hottest bytecodes in descending order, reading from
   # default filename v8.ignition_dispatches_counters.json (default mode)
   $ tools/ignition/bytecode_dispatches_report.py

   # Print the hottest 15 bytecode dispatch pairs reading from data.json
   $ tools/ignition/bytecode_dispatches_report.py -t -n 15 data.json

   # Save heatmap to default filename v8.ignition_dispatches_counters.svg
   $ tools/ignition/bytecode_dispatches_report.py -p

   # Save heatmap to filename data.svg
   $ tools/ignition/bytecode_dispatches_report.py -p -o data.svg

   # Open the heatmap in an interactive viewer
   $ tools/ignition/bytecode_dispatches_report.py -p -i

   # Display the top 5 sources and destinations of dispatches to/from LdaZero
   $ tools/ignition/bytecode_dispatches_report.py -f LdaZero -n 5
 """

 __COUNTER_BITS = struct.calcsize("P") * 8  # Size in bits of a pointer
 __COUNTER_MAX = 2**__COUNTER_BITS - 1


 def warn_if_counter_may_have_saturated(dispatches_table):
   for source, counters_from_source in iteritems(dispatches_table):
     for destination, counter in iteritems(counters_from_source):
       if counter == __COUNTER_MAX:
         print "WARNING: {} -> {} may have saturated.".format(source,
                                                              destination)


 def find_top_bytecode_dispatch_pairs(dispatches_table, top_count):
   def flattened_counters_generator():
     for source, counters_from_source in iteritems(dispatches_table):
       for destination, counter in iteritems(counters_from_source):
         yield source, destination, counter

   return heapq.nlargest(top_count, flattened_counters_generator(),
                         key=lambda x: x[2])


 def print_top_bytecode_dispatch_pairs(dispatches_table, top_count):
   top_bytecode_dispatch_pairs = (
     find_top_bytecode_dispatch_pairs(dispatches_table, top_count))
   print "Top {} bytecode dispatch pairs:".format(top_count)
   for source, destination, counter in top_bytecode_dispatch_pairs:
     print "{:>12d}\t{} -> {}".format(counter, source, destination)


 def find_top_bytecodes(dispatches_table):
   top_bytecodes = []
   for bytecode, counters_from_bytecode in iteritems(dispatches_table):
     top_bytecodes.append((bytecode, sum(itervalues(counters_from_bytecode))))

   top_bytecodes.sort(key=lambda x: x[1], reverse=True)
   return top_bytecodes


 def print_top_bytecodes(dispatches_table):
   top_bytecodes = find_top_bytecodes(dispatches_table)
   print "Top bytecodes:"
   for bytecode, counter in top_bytecodes:
     print "{:>12d}\t{}".format(counter, bytecode)


 def find_top_dispatch_sources_and_destinations(
     dispatches_table, bytecode, top_count, sort_source_relative):
   sources = []
   for source, destinations in iteritems(dispatches_table):
     total = float(sum(itervalues(destinations)))
     if bytecode in destinations:
       count = destinations[bytecode]
       sources.append((source, count, count / total))

   destinations = []
   bytecode_destinations = dispatches_table[bytecode]
   bytecode_total = float(sum(itervalues(bytecode_destinations)))
   for destination, count in iteritems(bytecode_destinations):
     destinations.append((destination, count, count / bytecode_total))

   return (heapq.nlargest(top_count, sources,
                          key=lambda x: x[2 if sort_source_relative else 1]),
           heapq.nlargest(top_count, destinations, key=lambda x: x[1]))


 def print_top_dispatch_sources_and_destinations(dispatches_table, bytecode,
                                                 top_count, sort_relative):
   top_sources, top_destinations = find_top_dispatch_sources_and_destinations(
       dispatches_table, bytecode, top_count, sort_relative)
   print "Top sources of dispatches to {}:".format(bytecode)
   for source_name, counter, ratio in top_sources:
     print "{:>12d}\t{:>5.1f}%\t{}".format(counter, ratio * 100, source_name)

   print "\nTop destinations of dispatches from {}:".format(bytecode)
   for destination_name, counter, ratio in top_destinations:
     print "{:>12d}\t{:>5.1f}%\t{}".format(counter, ratio * 100, destination_name)


 def build_counters_matrix(dispatches_table):
   labels = sorted(dispatches_table.keys())

   counters_matrix = numpy.empty([len(labels), len(labels)], dtype=int)
   for from_index, from_name in enumerate(labels):
     current_row = dispatches_table[from_name];
     for to_index, to_name in enumerate(labels):
       counters_matrix[from_index, to_index] = current_row.get(to_name, 0)

   # Reverse y axis for a nicer appearance
   xlabels = labels
   ylabels = list(reversed(xlabels))
   counters_matrix = numpy.flipud(counters_matrix)

   return counters_matrix, xlabels, ylabels


 def plot_dispatches_table(dispatches_table, figure, axis):
   counters_matrix, xlabels, ylabels = build_counters_matrix(dispatches_table)

   image = axis.pcolor(
     counters_matrix,
     cmap="jet",
     norm=colors.LogNorm(),
     edgecolor="grey",
     linestyle="dotted",
     linewidth=0.5
   )

   axis.xaxis.set(
     ticks=numpy.arange(0.5, len(xlabels)),
     label="From bytecode handler"
   )
   axis.xaxis.tick_top()
   axis.set_xlim(0, len(xlabels))
   axis.set_xticklabels(xlabels, rotation="vertical")

   axis.yaxis.set(
     ticks=numpy.arange(0.5, len(ylabels)),
     label="To bytecode handler",
     ticklabels=ylabels
   )
   axis.set_ylim(0, len(ylabels))

   figure.colorbar(
     image,
     ax=axis,
     fraction=0.01,
     pad=0.01
   )


 def parse_command_line():
   command_line_parser = argparse.ArgumentParser(
     formatter_class=argparse.RawDescriptionHelpFormatter,
     description=__DESCRIPTION,
     epilog=__HELP_EPILOGUE
   )
   command_line_parser.add_argument(
     "--plot-size", "-s",
     metavar="N",
     default=30,
     help="shorter side in inches of the output plot (default 30)"
   )
   command_line_parser.add_argument(
     "--plot", "-p",
     action="store_true",
     help="plot dispatch pairs heatmap"
   )
   command_line_parser.add_argument(
     "--interactive", "-i",
     action="store_true",
     help="open the heatmap in an interactive viewer, instead of writing to file"
   )
   command_line_parser.add_argument(
     "--top-bytecode-dispatch-pairs", "-t",
     action="store_true",
     help="print the top bytecode dispatch pairs"
   )
   command_line_parser.add_argument(
     "--top-entries-count", "-n",
     metavar="N",
     type=int,
     default=10,
     help="print N top entries when running with -t or -f (default 10)"
   )
   command_line_parser.add_argument(
     "--top-dispatches-for-bytecode", "-f",
     metavar="<bytecode name>",
     help="print top dispatch sources and destinations to the specified bytecode"
   )
   command_line_parser.add_argument(
     "--output-filename", "-o",
     metavar="<output filename>",
     default="v8.ignition_dispatches_table.svg",
     help=("file to save the plot file to. File type is deduced from the "
           "extension. PDF, SVG, PNG supported")
   )
   command_line_parser.add_argument(
     "--sort-sources-relative", "-r",
     action="store_true",
     help=("print top sources in order to how often they dispatch to the "
           "specified bytecode, only applied when using -f")
   )
   command_line_parser.add_argument(
     "input_filename",
     metavar="<input filename>",
     default="v8.ignition_dispatches_table.json",
     nargs='?',
     help="Ignition counters JSON file"
   )

   return command_line_parser.parse_args()


 def itervalues(d):
   return d.values() if sys.version_info[0] > 2 else d.itervalues()


 def iteritems(d):
   return d.items() if sys.version_info[0] > 2 else d.iteritems()


 def main():
   program_options = parse_command_line()

   with open(program_options.input_filename) as stream:
     dispatches_table = json.load(stream)

   warn_if_counter_may_have_saturated(dispatches_table)

   if program_options.plot:
     figure, axis = pyplot.subplots()
     plot_dispatches_table(dispatches_table, figure, axis)

     if program_options.interactive:
       pyplot.show()
     else:
       figure.set_size_inches(program_options.plot_size,
                              program_options.plot_size)
       pyplot.savefig(program_options.output_filename)
   elif program_options.top_bytecode_dispatch_pairs:
     print_top_bytecode_dispatch_pairs(
       dispatches_table, program_options.top_entries_count)
   elif program_options.top_dispatches_for_bytecode:
     print_top_dispatch_sources_and_destinations(
       dispatches_table, program_options.top_dispatches_for_bytecode,
       program_options.top_entries_count, program_options.sort_sources_relative)
   else:
     print_top_bytecodes(dispatches_table)


 if __name__ == "__main__":
   main()
	#! /usr/bin/python
	#
	# Copyright 2016 the V8 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.
	#

	import argparse
	import heapq
	import json
	from matplotlib import colors
	from matplotlib import pyplot
	import numpy
	import struct
	import sys


	__DESCRIPTION = """
	Process v8.ignition_dispatches_counters.json and list top counters,
	or plot a dispatch heatmap.

	Please note that those handlers that may not or will never dispatch
	(e.g. Return or Throw) do not show up in the results.
	"""


	__HELP_EPILOGUE = """
	examples:
	# Print the hottest bytecodes in descending order, reading from
	# default filename v8.ignition_dispatches_counters.json (default mode)
	$ tools/ignition/bytecode_dispatches_report.py

	# Print the hottest 15 bytecode dispatch pairs reading from data.json
	$ tools/ignition/bytecode_dispatches_report.py -t -n 15 data.json

	# Save heatmap to default filename v8.ignition_dispatches_counters.svg
	$ tools/ignition/bytecode_dispatches_report.py -p

	# Save heatmap to filename data.svg
	$ tools/ignition/bytecode_dispatches_report.py -p -o data.svg

	# Open the heatmap in an interactive viewer
	$ tools/ignition/bytecode_dispatches_report.py -p -i

	# Display the top 5 sources and destinations of dispatches to/from LdaZero
	$ tools/ignition/bytecode_dispatches_report.py -f LdaZero -n 5
	"""

	__COUNTER_BITS = struct.calcsize("P") * 8 # Size in bits of a pointer
	__COUNTER_MAX = 2**__COUNTER_BITS - 1


	def warn_if_counter_may_have_saturated(dispatches_table):
	for source, counters_from_source in iteritems(dispatches_table):
	for destination, counter in iteritems(counters_from_source):
	if counter == __COUNTER_MAX:
	print "WARNING: {} -> {} may have saturated.".format(source,
	destination)


	def find_top_bytecode_dispatch_pairs(dispatches_table, top_count):
	def flattened_counters_generator():
	for source, counters_from_source in iteritems(dispatches_table):
	for destination, counter in iteritems(counters_from_source):
	yield source, destination, counter

	return heapq.nlargest(top_count, flattened_counters_generator(),
	key=lambda x: x[2])


	def print_top_bytecode_dispatch_pairs(dispatches_table, top_count):
	top_bytecode_dispatch_pairs = (
	find_top_bytecode_dispatch_pairs(dispatches_table, top_count))
	print "Top {} bytecode dispatch pairs:".format(top_count)
	for source, destination, counter in top_bytecode_dispatch_pairs:
	print "{:>12d}\t{} -> {}".format(counter, source, destination)


	def find_top_bytecodes(dispatches_table):
	top_bytecodes = []
	for bytecode, counters_from_bytecode in iteritems(dispatches_table):
	top_bytecodes.append((bytecode, sum(itervalues(counters_from_bytecode))))

	top_bytecodes.sort(key=lambda x: x[1], reverse=True)
	return top_bytecodes


	def print_top_bytecodes(dispatches_table):
	top_bytecodes = find_top_bytecodes(dispatches_table)
	print "Top bytecodes:"
	for bytecode, counter in top_bytecodes:
	print "{:>12d}\t{}".format(counter, bytecode)


	def find_top_dispatch_sources_and_destinations(
	dispatches_table, bytecode, top_count, sort_source_relative):
	sources = []
	for source, destinations in iteritems(dispatches_table):
	total = float(sum(itervalues(destinations)))
	if bytecode in destinations:
	count = destinations[bytecode]
	sources.append((source, count, count / total))

	destinations = []
	bytecode_destinations = dispatches_table[bytecode]
	bytecode_total = float(sum(itervalues(bytecode_destinations)))
	for destination, count in iteritems(bytecode_destinations):
	destinations.append((destination, count, count / bytecode_total))

	return (heapq.nlargest(top_count, sources,
	key=lambda x: x[2 if sort_source_relative else 1]),
	heapq.nlargest(top_count, destinations, key=lambda x: x[1]))


	def print_top_dispatch_sources_and_destinations(dispatches_table, bytecode,
	top_count, sort_relative):
	top_sources, top_destinations = find_top_dispatch_sources_and_destinations(
	dispatches_table, bytecode, top_count, sort_relative)
	print "Top sources of dispatches to {}:".format(bytecode)
	for source_name, counter, ratio in top_sources:
	print "{:>12d}\t{:>5.1f}%\t{}".format(counter, ratio * 100, source_name)

	print "\nTop destinations of dispatches from {}:".format(bytecode)
	for destination_name, counter, ratio in top_destinations:
	print "{:>12d}\t{:>5.1f}%\t{}".format(counter, ratio * 100, destination_name)


	def build_counters_matrix(dispatches_table):
	labels = sorted(dispatches_table.keys())

	counters_matrix = numpy.empty([len(labels), len(labels)], dtype=int)
	for from_index, from_name in enumerate(labels):
	current_row = dispatches_table[from_name];
	for to_index, to_name in enumerate(labels):
	counters_matrix[from_index, to_index] = current_row.get(to_name, 0)

	# Reverse y axis for a nicer appearance
	xlabels = labels
	ylabels = list(reversed(xlabels))
	counters_matrix = numpy.flipud(counters_matrix)

	return counters_matrix, xlabels, ylabels


	def plot_dispatches_table(dispatches_table, figure, axis):
	counters_matrix, xlabels, ylabels = build_counters_matrix(dispatches_table)

	image = axis.pcolor(
	counters_matrix,
	cmap="jet",
	norm=colors.LogNorm(),
	edgecolor="grey",
	linestyle="dotted",
	linewidth=0.5
	)

	axis.xaxis.set(
	ticks=numpy.arange(0.5, len(xlabels)),
	label="From bytecode handler"
	)
	axis.xaxis.tick_top()
	axis.set_xlim(0, len(xlabels))
	axis.set_xticklabels(xlabels, rotation="vertical")

	axis.yaxis.set(
	ticks=numpy.arange(0.5, len(ylabels)),
	label="To bytecode handler",
	ticklabels=ylabels
	)
	axis.set_ylim(0, len(ylabels))

	figure.colorbar(
	image,
	ax=axis,
	fraction=0.01,
	pad=0.01
	)


	def parse_command_line():
	command_line_parser = argparse.ArgumentParser(
	formatter_class=argparse.RawDescriptionHelpFormatter,
	description=__DESCRIPTION,
	epilog=__HELP_EPILOGUE
	)
	command_line_parser.add_argument(
	"--plot-size", "-s",
	metavar="N",
	default=30,
	help="shorter side in inches of the output plot (default 30)"
	)
	command_line_parser.add_argument(
	"--plot", "-p",
	action="store_true",
	help="plot dispatch pairs heatmap"
	)
	command_line_parser.add_argument(
	"--interactive", "-i",
	action="store_true",
	help="open the heatmap in an interactive viewer, instead of writing to file"
	)
	command_line_parser.add_argument(
	"--top-bytecode-dispatch-pairs", "-t",
	action="store_true",
	help="print the top bytecode dispatch pairs"
	)
	command_line_parser.add_argument(
	"--top-entries-count", "-n",
	metavar="N",
	type=int,
	default=10,
	help="print N top entries when running with -t or -f (default 10)"
	)
	command_line_parser.add_argument(
	"--top-dispatches-for-bytecode", "-f",
	metavar="<bytecode name>",
	help="print top dispatch sources and destinations to the specified bytecode"
	)
	command_line_parser.add_argument(
	"--output-filename", "-o",
	metavar="<output filename>",
	default="v8.ignition_dispatches_table.svg",
	help=("file to save the plot file to. File type is deduced from the "
	"extension. PDF, SVG, PNG supported")
	)
	command_line_parser.add_argument(
	"--sort-sources-relative", "-r",
	action="store_true",
	help=("print top sources in order to how often they dispatch to the "
	"specified bytecode, only applied when using -f")
	)
	command_line_parser.add_argument(
	"input_filename",
	metavar="<input filename>",
	default="v8.ignition_dispatches_table.json",
	nargs='?',
	help="Ignition counters JSON file"
	)

	return command_line_parser.parse_args()


	def itervalues(d):
	return d.values() if sys.version_info[0] > 2 else d.itervalues()


	def iteritems(d):
	return d.items() if sys.version_info[0] > 2 else d.iteritems()


	def main():
	program_options = parse_command_line()

	with open(program_options.input_filename) as stream:
	dispatches_table = json.load(stream)

	warn_if_counter_may_have_saturated(dispatches_table)

	if program_options.plot:
	figure, axis = pyplot.subplots()
	plot_dispatches_table(dispatches_table, figure, axis)

	if program_options.interactive:
	pyplot.show()
	else:
	figure.set_size_inches(program_options.plot_size,
	program_options.plot_size)
	pyplot.savefig(program_options.output_filename)
	elif program_options.top_bytecode_dispatch_pairs:
	print_top_bytecode_dispatch_pairs(
	dispatches_table, program_options.top_entries_count)
	elif program_options.top_dispatches_for_bytecode:
	print_top_dispatch_sources_and_destinations(
	dispatches_table, program_options.top_dispatches_for_bytecode,
	program_options.top_entries_count, program_options.sort_sources_relative)
	else:
	print_top_bytecodes(dispatches_table)


	if __name__ == "__main__":
	main()