tests/JankBench/scripts/collect.py - platform/frameworks/base - Git at Google

 #!/usr/bin/python

 import optparse
 import sys
 import sqlite3
 import scipy.stats
 import numpy
 from math import log10, floor
 import matplotlib

 matplotlib.use("Agg")

 import matplotlib.pyplot as plt
 import pylab

 import adbutil
 from devices import DEVICES

 DB_PATH="/data/data/com.android.benchmark/databases/BenchmarkResults"
 OUT_PATH = "db/"

 QUERY_BAD_FRAME = ("select run_id, name, iteration, total_duration from ui_results "
                    "where total_duration >= 16 order by run_id, name, iteration")
 QUERY_PERCENT_JANK = ("select run_id, name, iteration, sum(jank_frame) as jank_count, count (*) as total "
                       "from ui_results group by run_id, name, iteration")

 SKIP_TESTS = [
     # "BMUpload",
     # "Low-hitrate text render",
     # "High-hitrate text render",
     # "Edit Text Input",
     # "List View Fling"
 ]

 INCLUDE_TESTS = [
     #"BMUpload"
     #"Shadow Grid Fling"
     #"Image List View Fling"
     #"Edit Text Input"
 ]

 class IterationResult:
     def __init__(self):
         self.durations = []
         self.jank_count = 0
         self.total_count = 0


 def get_scoremap(dbpath):
     db = sqlite3.connect(dbpath)
     rows = db.execute(QUERY_BAD_FRAME)

     scoremap = {}
     for row in rows:
         run_id = row[0]
         name = row[1]
         iteration = row[2]
         total_duration = row[3]

         if not run_id in scoremap:
             scoremap[run_id] = {}

         if not name in scoremap[run_id]:
             scoremap[run_id][name] = {}

         if not iteration in scoremap[run_id][name]:
             scoremap[run_id][name][iteration] = IterationResult()

         scoremap[run_id][name][iteration].durations.append(float(total_duration))

     for row in db.execute(QUERY_PERCENT_JANK):
         run_id = row[0]
         name = row[1]
         iteration = row[2]
         jank_count = row[3]
         total_count = row[4]

         if run_id in scoremap.keys() and name in scoremap[run_id].keys() and iteration in scoremap[run_id][name].keys():
             scoremap[run_id][name][iteration].jank_count = long(jank_count)
             scoremap[run_id][name][iteration].total_count = long(total_count)

     db.close()
     return scoremap

 def round_to_2(val):
     return val
     if val == 0:
         return val
     return round(val , -int(floor(log10(abs(val)))) + 1)

 def score_device(name, serial, pull = False, verbose = False):
     dbpath = OUT_PATH + name + ".db"

     if pull:
         adbutil.root(serial)
         adbutil.pull(serial, DB_PATH, dbpath)

     scoremap = None
     try:
         scoremap = get_scoremap(dbpath)
     except sqlite3.DatabaseError:
         print "Database corrupt, fetching..."
         adbutil.root(serial)
         adbutil.pull(serial, DB_PATH, dbpath)
         scoremap = get_scoremap(dbpath)

     per_test_score = {}
     per_test_sample_count = {}
     global_overall = {}

     for run_id in iter(scoremap):
         overall = []
         if len(scoremap[run_id]) < 1:
             if verbose:
                 print "Skipping short run %s" % run_id
             continue
         print "Run: %s" % run_id
         for test in iter(scoremap[run_id]):
             if test in SKIP_TESTS:
                 continue
             if INCLUDE_TESTS and test not in INCLUDE_TESTS:
                 continue
             if verbose:
                 print "\t%s" % test
             scores = []
             means = []
             stddevs = []
             pjs = []
             sample_count = 0
             hit_min_count = 0
             # try pooling together all iterations
             for iteration in iter(scoremap[run_id][test]):
                 res = scoremap[run_id][test][iteration]
                 stddev = round_to_2(numpy.std(res.durations))
                 mean = round_to_2(numpy.mean(res.durations))
                 sample_count += len(res.durations)
                 pj = round_to_2(100 * res.jank_count / float(res.total_count))
                 score = stddev * mean * pj
                 score = 100 * len(res.durations) / float(res.total_count)
                 if score == 0:
                     score = 1
                 scores.append(score)
                 means.append(mean)
                 stddevs.append(stddev)
                 pjs.append(pj)
                 if verbose:
                     print "\t%s: Score = %f x %f x %f = %f (%d samples)" % (iteration, stddev, mean, pj, score, len(res.durations))

             if verbose:
                 print "\tHit min: %d" % hit_min_count
                 print "\tMean Variation: %0.2f%%" % (100 * scipy.stats.variation(means))
                 print "\tStdDev Variation: %0.2f%%" % (100 * scipy.stats.variation(stddevs))
                 print "\tPJ Variation: %0.2f%%" % (100 * scipy.stats.variation(pjs))

             geo_run = numpy.mean(scores)
             if test not in per_test_score:
                 per_test_score[test] = []

             if test not in per_test_sample_count:
                 per_test_sample_count[test] = []

             sample_count /= len(scoremap[run_id][test])

             per_test_score[test].append(geo_run)
             per_test_sample_count[test].append(int(sample_count))
             overall.append(geo_run)

             if not verbose:
                 print "\t%s:\t%0.2f (%0.2f avg. sample count)" % (test, geo_run, sample_count)
             else:
                 print "\tOverall:\t%0.2f (%0.2f avg. sample count)" % (geo_run, sample_count)
                 print ""

         global_overall[run_id] = scipy.stats.gmean(overall)
         print "Run Overall: %f" % global_overall[run_id]
         print ""

     print ""
     print "Variability (CV) - %s:" % name

     worst_offender_test = None
     worst_offender_variation = 0
     for test in per_test_score:
         variation = 100 * scipy.stats.variation(per_test_score[test])
         if worst_offender_variation < variation:
             worst_offender_test = test
             worst_offender_variation = variation
         print "\t%s:\t%0.2f%% (%0.2f avg sample count)" % (test, variation, numpy.mean(per_test_sample_count[test]))

     print "\tOverall: %0.2f%%" % (100 * scipy.stats.variation([x for x in global_overall.values()]))
     print ""

     return {
             "overall": global_overall.values(),
             "worst_offender_test": (name, worst_offender_test, worst_offender_variation)
             }

 def parse_options(argv):
     usage = 'Usage: %prog [options]'
     desc = 'Example: %prog'
     parser = optparse.OptionParser(usage=usage, description=desc)
     parser.add_option("-p", dest='pull', action="store_true")
     parser.add_option("-d", dest='device', action="store")
     parser.add_option("-v", dest='verbose', action="store_true")
     options, categories = parser.parse_args(argv[1:])
     return options

 def main():
     options = parse_options(sys.argv)
     if options.device != None:
         score_device(options.device, DEVICES[options.device], options.pull, options.verbose)
     else:
         device_scores = []
         worst_offenders = []
         for name, serial in DEVICES.iteritems():
             print "======== %s =========" % name
             result = score_device(name, serial, options.pull, options.verbose)
             device_scores.append((name, result["overall"]))
             worst_offenders.append(result["worst_offender_test"])


         device_scores.sort(cmp=(lambda x, y: cmp(x[1], y[1])))
         print "Ranking by max overall score:"
         for name, score in device_scores:
             plt.plot([0, 1, 2, 3, 4, 5], score, label=name)
             print "\t%s: %s" % (name, score)

         plt.ylabel("Jank %")
         plt.xlabel("Iteration")
         plt.title("Jank Percentage")
         plt.legend()
         pylab.savefig("holy.png", bbox_inches="tight")

         print "Worst offender tests:"
         for device, test, variation in worst_offenders:
             print "\t%s: %s %.2f%%" % (device, test, variation)

 if __name__ == "__main__":
     main()
	#!/usr/bin/python

	import optparse
	import sys
	import sqlite3
	import scipy.stats
	import numpy
	from math import log10, floor
	import matplotlib

	matplotlib.use("Agg")

	import matplotlib.pyplot as plt
	import pylab

	import adbutil
	from devices import DEVICES

	DB_PATH="/data/data/com.android.benchmark/databases/BenchmarkResults"
	OUT_PATH = "db/"

	QUERY_BAD_FRAME = ("select run_id, name, iteration, total_duration from ui_results "
	"where total_duration >= 16 order by run_id, name, iteration")
	QUERY_PERCENT_JANK = ("select run_id, name, iteration, sum(jank_frame) as jank_count, count (*) as total "
	"from ui_results group by run_id, name, iteration")

	SKIP_TESTS = [
	# "BMUpload",
	# "Low-hitrate text render",
	# "High-hitrate text render",
	# "Edit Text Input",
	# "List View Fling"
	]

	INCLUDE_TESTS = [
	#"BMUpload"
	#"Shadow Grid Fling"
	#"Image List View Fling"
	#"Edit Text Input"
	]

	class IterationResult:
	def __init__(self):
	self.durations = []
	self.jank_count = 0
	self.total_count = 0


	def get_scoremap(dbpath):
	db = sqlite3.connect(dbpath)
	rows = db.execute(QUERY_BAD_FRAME)

	scoremap = {}
	for row in rows:
	run_id = row[0]
	name = row[1]
	iteration = row[2]
	total_duration = row[3]

	if not run_id in scoremap:
	scoremap[run_id] = {}

	if not name in scoremap[run_id]:
	scoremap[run_id][name] = {}

	if not iteration in scoremap[run_id][name]:
	scoremap[run_id][name][iteration] = IterationResult()

	scoremap[run_id][name][iteration].durations.append(float(total_duration))

	for row in db.execute(QUERY_PERCENT_JANK):
	run_id = row[0]
	name = row[1]
	iteration = row[2]
	jank_count = row[3]
	total_count = row[4]

	if run_id in scoremap.keys() and name in scoremap[run_id].keys() and iteration in scoremap[run_id][name].keys():
	scoremap[run_id][name][iteration].jank_count = long(jank_count)
	scoremap[run_id][name][iteration].total_count = long(total_count)

	db.close()
	return scoremap

	def round_to_2(val):
	return val
	if val == 0:
	return val
	return round(val , -int(floor(log10(abs(val)))) + 1)

	def score_device(name, serial, pull = False, verbose = False):
	dbpath = OUT_PATH + name + ".db"

	if pull:
	adbutil.root(serial)
	adbutil.pull(serial, DB_PATH, dbpath)

	scoremap = None
	try:
	scoremap = get_scoremap(dbpath)
	except sqlite3.DatabaseError:
	print "Database corrupt, fetching..."
	adbutil.root(serial)
	adbutil.pull(serial, DB_PATH, dbpath)
	scoremap = get_scoremap(dbpath)

	per_test_score = {}
	per_test_sample_count = {}
	global_overall = {}

	for run_id in iter(scoremap):
	overall = []
	if len(scoremap[run_id]) < 1:
	if verbose:
	print "Skipping short run %s" % run_id
	continue
	print "Run: %s" % run_id
	for test in iter(scoremap[run_id]):
	if test in SKIP_TESTS:
	continue
	if INCLUDE_TESTS and test not in INCLUDE_TESTS:
	continue
	if verbose:
	print "\t%s" % test
	scores = []
	means = []
	stddevs = []
	pjs = []
	sample_count = 0
	hit_min_count = 0
	# try pooling together all iterations
	for iteration in iter(scoremap[run_id][test]):
	res = scoremap[run_id][test][iteration]
	stddev = round_to_2(numpy.std(res.durations))
	mean = round_to_2(numpy.mean(res.durations))
	sample_count += len(res.durations)
	pj = round_to_2(100 * res.jank_count / float(res.total_count))
	score = stddev * mean * pj
	score = 100 * len(res.durations) / float(res.total_count)
	if score == 0:
	score = 1
	scores.append(score)
	means.append(mean)
	stddevs.append(stddev)
	pjs.append(pj)
	if verbose:
	print "\t%s: Score = %f x %f x %f = %f (%d samples)" % (iteration, stddev, mean, pj, score, len(res.durations))

	if verbose:
	print "\tHit min: %d" % hit_min_count
	print "\tMean Variation: %0.2f%%" % (100 * scipy.stats.variation(means))
	print "\tStdDev Variation: %0.2f%%" % (100 * scipy.stats.variation(stddevs))
	print "\tPJ Variation: %0.2f%%" % (100 * scipy.stats.variation(pjs))

	geo_run = numpy.mean(scores)
	if test not in per_test_score:
	per_test_score[test] = []

	if test not in per_test_sample_count:
	per_test_sample_count[test] = []

	sample_count /= len(scoremap[run_id][test])

	per_test_score[test].append(geo_run)
	per_test_sample_count[test].append(int(sample_count))
	overall.append(geo_run)

	if not verbose:
	print "\t%s:\t%0.2f (%0.2f avg. sample count)" % (test, geo_run, sample_count)
	else:
	print "\tOverall:\t%0.2f (%0.2f avg. sample count)" % (geo_run, sample_count)
	print ""

	global_overall[run_id] = scipy.stats.gmean(overall)
	print "Run Overall: %f" % global_overall[run_id]
	print ""

	print ""
	print "Variability (CV) - %s:" % name

	worst_offender_test = None
	worst_offender_variation = 0
	for test in per_test_score:
	variation = 100 * scipy.stats.variation(per_test_score[test])
	if worst_offender_variation < variation:
	worst_offender_test = test
	worst_offender_variation = variation
	print "\t%s:\t%0.2f%% (%0.2f avg sample count)" % (test, variation, numpy.mean(per_test_sample_count[test]))

	print "\tOverall: %0.2f%%" % (100 * scipy.stats.variation([x for x in global_overall.values()]))
	print ""

	return {
	"overall": global_overall.values(),
	"worst_offender_test": (name, worst_offender_test, worst_offender_variation)
	}

	def parse_options(argv):
	usage = 'Usage: %prog [options]'
	desc = 'Example: %prog'
	parser = optparse.OptionParser(usage=usage, description=desc)
	parser.add_option("-p", dest='pull', action="store_true")
	parser.add_option("-d", dest='device', action="store")
	parser.add_option("-v", dest='verbose', action="store_true")
	options, categories = parser.parse_args(argv[1:])
	return options

	def main():
	options = parse_options(sys.argv)
	if options.device != None:
	score_device(options.device, DEVICES[options.device], options.pull, options.verbose)
	else:
	device_scores = []
	worst_offenders = []
	for name, serial in DEVICES.iteritems():
	print "======== %s =========" % name
	result = score_device(name, serial, options.pull, options.verbose)
	device_scores.append((name, result["overall"]))
	worst_offenders.append(result["worst_offender_test"])


	device_scores.sort(cmp=(lambda x, y: cmp(x[1], y[1])))
	print "Ranking by max overall score:"
	for name, score in device_scores:
	plt.plot([0, 1, 2, 3, 4, 5], score, label=name)
	print "\t%s: %s" % (name, score)

	plt.ylabel("Jank %")
	plt.xlabel("Iteration")
	plt.title("Jank Percentage")
	plt.legend()
	pylab.savefig("holy.png", bbox_inches="tight")

	print "Worst offender tests:"
	for device, test, variation in worst_offenders:
	print "\t%s: %s %.2f%%" % (device, test, variation)

	if __name__ == "__main__":
	main()