scripts/testset.py - platform/external/deqp - Gitiles

 # -*- coding: utf-8 -*-

 #-------------------------------------------------------------------------
 # drawElements Quality Program utilities
 # --------------------------------------
 #
 # Copyright 2015 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #
 #-------------------------------------------------------------------------

 import sys
 import random
 import string
 import subprocess
 from optparse import OptionParser

 def all (results, predicate):
 	for result in results:
 		if not predicate(result):
 			return False
 	return True

 def any (results, predicate):
 	for result in results:
 		if predicate(result):
 			return True
 	return False

 class FilterRule:
 	def __init__ (self, name, description, filters):
 		self.name			= name
 		self.description	= description
 		self.filters		= filters

 class TestCaseResult:
 	def __init__ (self, name, results):
 		self.name		= name
 		self.results	= results

 class Group:
 	def __init__ (self, name):
 		self.name		= name
 		self.cases		= []

 def readCaseList (filename):
 	f = open(filename, 'rb')
 	cases = []
 	for line in f:
 		if line[:6] == "TEST: ":
 			case = line[6:].strip()
 			if len(case) > 0:
 				cases.append(case)
 	return cases

 def toResultList (caselist):
 	results = []
 	for case in caselist:
 		results.append(TestCaseResult(case, []))
 	return results

 def addResultsToCaseList (caselist, results):
 	resultMap	= {}
 	caseListRes	= toResultList(caselist)

 	for res in caseListRes:
 		resultMap[res.name] = res

 	for result in results:
 		if result.name in resultMap:
 			resultMap[result.name].results += result.results

 	return caseListRes

 def readTestResults (filename):
 	f			= open(filename, 'rb')
 	csvData		= f.read()
 	csvLines	= csvData.splitlines()
 	results		= []

 	f.close()

 	for line in csvLines[1:]:
 		args = line.split(',')
 		if len(args) == 1:
 			continue # Ignore

 		results.append(TestCaseResult(args[0], args[1:]))

 	if len(results) == 0:
 		raise Exception("Empty result list")

 	# Sanity check for results
 	numResultItems	= len(results[0].results)
 	seenResults		= set()
 	for result in results:
 		if result.name in seenResults:
 			raise Exception("Duplicate result row for test case '%s'" % result.name)
 		if len(result.results) != numResultItems:
 			raise Exception("Found %d results for test case '%s', expected %d" % (len(result.results), result.name, numResultItems))
 		seenResults.add(result.name)

 	return results

 def readGroupList (filename):
 	f = open(filename, 'rb')
 	groups = []
 	for line in f:
 		group = line.strip()
 		if group != "":
 			groups.append(group)
 	return groups

 def createGroups (results, groupNames):
 	groups	= []
 	matched	= set()

 	for groupName in groupNames:
 		group = Group(groupName)
 		groups.append(group)

 		prefix		= groupName + "."
 		prefixLen	= len(prefix)
 		for case in results:
 			if case.name[:prefixLen] == prefix:
 				if case in matched:
 					die("Case '%s' matched by multiple groups (when processing '%s')" % (case.name, group.name))
 				group.cases.append(case)
 				matched.add(case)

 	return groups

 def createLeafGroups (results):
 	groups = []
 	groupMap = {}

 	for case in results:
 		parts		= case.name.split('.')
 		groupName	= string.join(parts[:-1], ".")

 		if not groupName in groupMap:
 			group = Group(groupName)
 			groups.append(group)
 			groupMap[groupName] = group
 		else:
 			group = groupMap[groupName]

 		group.cases.append(case)

 	return groups

 def filterList (results, condition):
 	filtered = []
 	for case in results:
 		if condition(case.results):
 			filtered.append(case)
 	return filtered

 def getFilter (list, name):
 	for filter in list:
 		if filter.name == name:
 			return filter
 	return None

 def getNumCasesInGroups (groups):
 	numCases = 0
 	for group in groups:
 		numCases += len(group.cases)
 	return numCases

 def getCasesInSet (results, caseSet):
 	filtered = []
 	for case in results:
 		if case in caseSet:
 			filtered.append(case)
 	return filtered

 def selectCasesInGroups (results, groups):
 	casesInGroups = set()
 	for group in groups:
 		for case in group.cases:
 			casesInGroups.add(case)
 	return getCasesInSet(results, casesInGroups)

 def selectRandomSubset (results, groups, limit, seed):
 	selectedCases	= set()
 	numSelect		= min(limit, getNumCasesInGroups(groups))

 	random.seed(seed)
 	random.shuffle(groups)

 	groupNdx = 0
 	while len(selectedCases) < numSelect:
 		group = groups[groupNdx]
 		if len(group.cases) == 0:
 			del groups[groupNdx]
 			if groupNdx == len(groups):
 				groupNdx -= 1
 			continue # Try next

 		selected = random.choice(group.cases)
 		selectedCases.add(selected)
 		group.cases.remove(selected)

 		groupNdx = (groupNdx + 1) % len(groups)

 	return getCasesInSet(results, selectedCases)

 def die (msg):
 	print msg
 	sys.exit(-1)

 # Named filter lists
 FILTER_RULES = [
 	FilterRule("all",			"No filtering",											[]),
 	FilterRule("all-pass",		"All results must be 'Pass'", 							[lambda l: all(l, lambda r: r == 'Pass')]),
 	FilterRule("any-pass",		"Any of results is 'Pass'",								[lambda l: any(l, lambda r: r == 'Pass')]),
 	FilterRule("any-fail",		"Any of results is not 'Pass' or 'NotSupported'",		[lambda l: not all(l, lambda r: r == 'Pass' or r == 'NotSupported')]),
 	FilterRule("prev-failing",	"Any except last result is failure",					[lambda l: l[-1] == 'Pass' and not all(l[:-1], lambda r: r == 'Pass')]),
 	FilterRule("prev-passing",	"Any except last result is 'Pass'",						[lambda l: l[-1] != 'Pass' and any(l[:-1], lambda r: r == 'Pass')])
 ]

 if __name__ == "__main__":
 	parser = OptionParser(usage = "usage: %prog [options] [caselist] [result csv file]")
 	parser.add_option("-f", "--filter", dest="filter", default="all", help="filter rule name")
 	parser.add_option("-l", "--list", action="store_true", dest="list", default=False, help="list available rules")
 	parser.add_option("-n", "--num", dest="limit", default=0, help="limit number of cases")
 	parser.add_option("-s", "--seed", dest="seed", default=0, help="use selected seed for random selection")
 	parser.add_option("-g", "--groups", dest="groups_file", default=None, help="select cases based on group list file")

 	(options, args)	= parser.parse_args()

 	if options.list:
 		print "Available filter rules:"
 		for filter in FILTER_RULES:
 			print "  %s: %s" % (filter.name, filter.description)
 		sys.exit(0)

 	if len(args) == 0:
 		die("No input files specified")
 	elif len(args) > 2:
 		die("Too many arguments")

 	# Fetch filter
 	filter = getFilter(FILTER_RULES, options.filter)
 	if filter == None:
 		die("Unknown filter '%s'" % options.filter)

 	# Read case list
 	caselist = readCaseList(args[0])
 	if len(args) > 1:
 		results = readTestResults(args[1])
 		results = addResultsToCaseList(caselist, results)
 	else:
 		results = toResultList(caselist)

 	# Execute filters for results
 	for rule in filter.filters:
 		results = filterList(results, rule)

 	if options.limit != 0:
 		if options.groups_file != None:
 			groups = createGroups(results, readGroupList(options.groups_file))
 		else:
 			groups = createLeafGroups(results)
 		results = selectRandomSubset(results, groups, int(options.limit), int(options.seed))
 	elif options.groups_file != None:
 		groups = createGroups(results, readGroupList(options.groups_file))
 		results = selectCasesInGroups(results, groups)

 	# Print test set
 	for result in results:
 		print result.name
	# -- coding: utf-8 --

	#-------------------------------------------------------------------------
	# drawElements Quality Program utilities
	# --------------------------------------
	#
	# Copyright 2015 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#
	#-------------------------------------------------------------------------

	import sys
	import random
	import string
	import subprocess
	from optparse import OptionParser

	def all (results, predicate):
	for result in results:
	if not predicate(result):
	return False
	return True

	def any (results, predicate):
	for result in results:
	if predicate(result):
	return True
	return False

	class FilterRule:
	def __init__ (self, name, description, filters):
	self.name = name
	self.description = description
	self.filters = filters

	class TestCaseResult:
	def __init__ (self, name, results):
	self.name = name
	self.results = results

	class Group:
	def __init__ (self, name):
	self.name = name
	self.cases = []

	def readCaseList (filename):
	f = open(filename, 'rb')
	cases = []
	for line in f:
	if line[:6] == "TEST: ":
	case = line[6:].strip()
	if len(case) > 0:
	cases.append(case)
	return cases

	def toResultList (caselist):
	results = []
	for case in caselist:
	results.append(TestCaseResult(case, []))
	return results

	def addResultsToCaseList (caselist, results):
	resultMap = {}
	caseListRes = toResultList(caselist)

	for res in caseListRes:
	resultMap[res.name] = res

	for result in results:
	if result.name in resultMap:
	resultMap[result.name].results += result.results

	return caseListRes

	def readTestResults (filename):
	f = open(filename, 'rb')
	csvData = f.read()
	csvLines = csvData.splitlines()
	results = []

	f.close()

	for line in csvLines[1:]:
	args = line.split(',')
	if len(args) == 1:
	continue # Ignore

	results.append(TestCaseResult(args[0], args[1:]))

	if len(results) == 0:
	raise Exception("Empty result list")

	# Sanity check for results
	numResultItems = len(results[0].results)
	seenResults = set()
	for result in results:
	if result.name in seenResults:
	raise Exception("Duplicate result row for test case '%s'" % result.name)
	if len(result.results) != numResultItems:
	raise Exception("Found %d results for test case '%s', expected %d" % (len(result.results), result.name, numResultItems))
	seenResults.add(result.name)

	return results

	def readGroupList (filename):
	f = open(filename, 'rb')
	groups = []
	for line in f:
	group = line.strip()
	if group != "":
	groups.append(group)
	return groups

	def createGroups (results, groupNames):
	groups = []
	matched = set()

	for groupName in groupNames:
	group = Group(groupName)
	groups.append(group)

	prefix = groupName + "."
	prefixLen = len(prefix)
	for case in results:
	if case.name[:prefixLen] == prefix:
	if case in matched:
	die("Case '%s' matched by multiple groups (when processing '%s')" % (case.name, group.name))
	group.cases.append(case)
	matched.add(case)

	return groups

	def createLeafGroups (results):
	groups = []
	groupMap = {}

	for case in results:
	parts = case.name.split('.')
	groupName = string.join(parts[:-1], ".")

	if not groupName in groupMap:
	group = Group(groupName)
	groups.append(group)
	groupMap[groupName] = group
	else:
	group = groupMap[groupName]

	group.cases.append(case)

	return groups

	def filterList (results, condition):
	filtered = []
	for case in results:
	if condition(case.results):
	filtered.append(case)
	return filtered

	def getFilter (list, name):
	for filter in list:
	if filter.name == name:
	return filter
	return None

	def getNumCasesInGroups (groups):
	numCases = 0
	for group in groups:
	numCases += len(group.cases)
	return numCases

	def getCasesInSet (results, caseSet):
	filtered = []
	for case in results:
	if case in caseSet:
	filtered.append(case)
	return filtered

	def selectCasesInGroups (results, groups):
	casesInGroups = set()
	for group in groups:
	for case in group.cases:
	casesInGroups.add(case)
	return getCasesInSet(results, casesInGroups)

	def selectRandomSubset (results, groups, limit, seed):
	selectedCases = set()
	numSelect = min(limit, getNumCasesInGroups(groups))

	random.seed(seed)
	random.shuffle(groups)

	groupNdx = 0
	while len(selectedCases) < numSelect:
	group = groups[groupNdx]
	if len(group.cases) == 0:
	del groups[groupNdx]
	if groupNdx == len(groups):
	groupNdx -= 1
	continue # Try next

	selected = random.choice(group.cases)
	selectedCases.add(selected)
	group.cases.remove(selected)

	groupNdx = (groupNdx + 1) % len(groups)

	return getCasesInSet(results, selectedCases)

	def die (msg):
	print msg
	sys.exit(-1)

	# Named filter lists
	FILTER_RULES = [
	FilterRule("all", "No filtering", []),
	FilterRule("all-pass", "All results must be 'Pass'", [lambda l: all(l, lambda r: r == 'Pass')]),
	FilterRule("any-pass", "Any of results is 'Pass'", [lambda l: any(l, lambda r: r == 'Pass')]),
	FilterRule("any-fail", "Any of results is not 'Pass' or 'NotSupported'", [lambda l: not all(l, lambda r: r == 'Pass' or r == 'NotSupported')]),
	FilterRule("prev-failing", "Any except last result is failure", [lambda l: l[-1] == 'Pass' and not all(l[:-1], lambda r: r == 'Pass')]),
	FilterRule("prev-passing", "Any except last result is 'Pass'", [lambda l: l[-1] != 'Pass' and any(l[:-1], lambda r: r == 'Pass')])
	]

	if __name__ == "__main__":
	parser = OptionParser(usage = "usage: %prog [options] [caselist] [result csv file]")
	parser.add_option("-f", "--filter", dest="filter", default="all", help="filter rule name")
	parser.add_option("-l", "--list", action="store_true", dest="list", default=False, help="list available rules")
	parser.add_option("-n", "--num", dest="limit", default=0, help="limit number of cases")
	parser.add_option("-s", "--seed", dest="seed", default=0, help="use selected seed for random selection")
	parser.add_option("-g", "--groups", dest="groups_file", default=None, help="select cases based on group list file")

	(options, args) = parser.parse_args()

	if options.list:
	print "Available filter rules:"
	for filter in FILTER_RULES:
	print " %s: %s" % (filter.name, filter.description)
	sys.exit(0)

	if len(args) == 0:
	die("No input files specified")
	elif len(args) > 2:
	die("Too many arguments")

	# Fetch filter
	filter = getFilter(FILTER_RULES, options.filter)
	if filter == None:
	die("Unknown filter '%s'" % options.filter)

	# Read case list
	caselist = readCaseList(args[0])
	if len(args) > 1:
	results = readTestResults(args[1])
	results = addResultsToCaseList(caselist, results)
	else:
	results = toResultList(caselist)

	# Execute filters for results
	for rule in filter.filters:
	results = filterList(results, rule)

	if options.limit != 0:
	if options.groups_file != None:
	groups = createGroups(results, readGroupList(options.groups_file))
	else:
	groups = createLeafGroups(results)
	results = selectRandomSubset(results, groups, int(options.limit), int(options.seed))
	elif options.groups_file != None:
	groups = createGroups(results, readGroupList(options.groups_file))
	results = selectCasesInGroups(results, groups)

	# Print test set
	for result in results:
	print result.name