third_party/subzero/pydir/bisection-tool.py - SwiftShader - Git at Google

 #!/usr/bin/env python2

 import argparse
 import math
 import os
 import re
 import signal
 import subprocess

 class Runner(object):
   def __init__(self, input_cmd, timeout, comma_join, template, find_all):
     self._input_cmd = input_cmd
     self._timeout = timeout
     self._num_tries = 0
     self._comma_join = comma_join
     self._template = template
     self._find_all = find_all

   def estimate(self, included_ranges):
     result = 0
     for i in included_ranges:
       if isinstance(i, int):
         result += 1
       else:
         if i[1] - i[0] > 2:
           result += int(math.log(i[1] - i[0], 2))
         else:
           result += (i[1] - i[0])
     if self._find_all:
       return 2 * result
     else:
       return result

   def Run(self, included_ranges):
     def timeout_handler(signum, frame):
       raise RuntimeError('Timeout')

     self._num_tries += 1
     cmd_addition = ''
     for i in included_ranges:
       if isinstance(i, int):
         range_str = str(i)
       else:
         range_str = '{start}:{end}'.format(start=i[0], end=i[1])
       if self._comma_join:
         cmd_addition += ',' + range_str
       else:
         cmd_addition += ' -i ' + range_str

     if self._template:
       cmd = cmd_addition.join(re.split(r'%i' ,self._input_cmd))
     else:
       cmd = self._input_cmd + cmd_addition

     print cmd
     p = subprocess.Popen(cmd, shell = True, cwd = None,
       stdout = subprocess.PIPE, stderr = subprocess.PIPE, env = None)
     if self._timeout != -1:
       signal.signal(signal.SIGALRM, timeout_handler)
       signal.alarm(self._timeout)

     try:
       _, _ = p.communicate()
       if self._timeout != -1:
         signal.alarm(0)
     except:
       try:
         os.kill(p.pid, signal.SIGKILL)
       except OSError:
         pass
       print 'Timeout'
       return -9
     print '===Return Code===: ' + str(p.returncode)
     print '===Remaining Steps (approx)===: ' \
       + str(self.estimate(included_ranges))
     return p.returncode

 def flatten(tree):
   if isinstance(tree, list):
     result = []
     for node in tree:
       result.extend(flatten(node))
     return result
   else:
     return [tree] # leaf

 def find_failures(runner, current_interval, include_ranges, find_all):
   if current_interval[0] == current_interval[1]:
     return []
   mid = (current_interval[0] + current_interval[1]) / 2

   first_half = (current_interval[0], mid)
   second_half = (mid, current_interval[1])

   exit_code_2 = 0

   exit_code_1 = runner.Run([first_half] + include_ranges)
   if find_all or exit_code_1 == 0:
     exit_code_2 = runner.Run([second_half] + include_ranges)

   if exit_code_1 == 0 and exit_code_2 == 0:
     # Whole range fails but both halves pass
     # So, some conjunction of functions cause a failure, but none individually.
     partial_result = flatten(find_failures(runner, first_half, [second_half]
                              + include_ranges, find_all))
     # Heavy list concatenation, but this is insignificant compared to the
     # process run times
     partial_result.extend(flatten(find_failures(runner, second_half,
                           partial_result + include_ranges, find_all)))
     return [partial_result]
   else:
     result = []
     if exit_code_1 != 0:
       if first_half[1] == first_half[0] + 1:
         result.append(first_half[0])
       else:
         result.extend(find_failures(runner, first_half,
                                      include_ranges, find_all))
     if exit_code_2 != 0:
       if second_half[1] == second_half[0] + 1:
         result.append(second_half[0])
       else:
         result.extend(find_failures(runner, second_half,
                                      include_ranges, find_all))
     return result


 def main():
   '''
   Helper Script for Automating Bisection Debugging

   Example Invocation:
   bisection-tool.py --cmd 'bisection-test.py -c 2x3' --end 1000 --timeout 60

   This will invoke 'bisection-test.py -c 2x3' starting with the range -i 0:1000
   If that fails, it will subdivide the range (initially 0:500 and 500:1000)
   recursively to pinpoint a combination of singletons that are needed to cause
   the input to return a non zero exit code or timeout.

   For investigating an error in the generated code:
   bisection-tool.py --cmd './pydir/szbuild_spec2k.py --run 188.ammp'

   For Subzero itself crashing,
   bisection-tool.py --cmd 'pnacl-sz -translate-only=' --comma-join=1
   The --comma-join flag ensures the ranges are formatted in the manner pnacl-sz
   expects.

   If the range specification is not to be appended on the input:
   bisection-tool.py --cmd 'echo %i; cmd-main %i; cmd-post' --template=1

   '''
   argparser = argparse.ArgumentParser(main.__doc__)
   argparser.add_argument('--cmd', required=True,  dest='cmd',
                            help='Runnable command')

   argparser.add_argument('--start', dest='start', default=0,
                            help='Start of initial range')

   argparser.add_argument('--end', dest='end', default=50000,
                            help='End of initial range')

   argparser.add_argument('--timeout', dest='timeout', default=60,
                            help='Timeout for each invocation of the input')

   argparser.add_argument('--all', type=int, choices=[0,1], default=1,
                            dest='all', help='Find all failures')

   argparser.add_argument('--comma-join', type=int, choices=[0,1], default=0,
                            dest='comma_join', help='Use comma to join ranges')

   argparser.add_argument('--template', type=int, choices=[0,1], default=0,
                            dest='template',
                            help='Replace %%i in the cmd string with the ranges')


   args = argparser.parse_args()

   fail_list = []

   initial_range = (int(args.start), int(args.end))
   timeout = int(args.timeout)
   runner = Runner(args.cmd, timeout, args.comma_join, args.template, args.all)
   if runner.Run([initial_range]) != 0:
     fail_list = find_failures(runner, initial_range, [], args.all)
   else:
     print 'Pass'
     # The whole input range works, maybe check subzero build flags?
     # Also consider widening the initial range (control with --start and --end)

   if fail_list:
     print 'Failing Items:'
     for fail in fail_list:
       if isinstance(fail, list):
         fail.sort()
         print '[' + ','.join(str(x) for x in fail) + ']'
       else:
         print fail
   print 'Number of tries: ' + str(runner._num_tries)

 if __name__ == '__main__':
   main()
	#!/usr/bin/env python2

	import argparse
	import math
	import os
	import re
	import signal
	import subprocess

	class Runner(object):
	def __init__(self, input_cmd, timeout, comma_join, template, find_all):
	self._input_cmd = input_cmd
	self._timeout = timeout
	self._num_tries = 0
	self._comma_join = comma_join
	self._template = template
	self._find_all = find_all

	def estimate(self, included_ranges):
	result = 0
	for i in included_ranges:
	if isinstance(i, int):
	result += 1
	else:
	if i[1] - i[0] > 2:
	result += int(math.log(i[1] - i[0], 2))
	else:
	result += (i[1] - i[0])
	if self._find_all:
	return 2 * result
	else:
	return result

	def Run(self, included_ranges):
	def timeout_handler(signum, frame):
	raise RuntimeError('Timeout')

	self._num_tries += 1
	cmd_addition = ''
	for i in included_ranges:
	if isinstance(i, int):
	range_str = str(i)
	else:
	range_str = '{start}:{end}'.format(start=i[0], end=i[1])
	if self._comma_join:
	cmd_addition += ',' + range_str
	else:
	cmd_addition += ' -i ' + range_str

	if self._template:
	cmd = cmd_addition.join(re.split(r'%i' ,self._input_cmd))
	else:
	cmd = self._input_cmd + cmd_addition

	print cmd
	p = subprocess.Popen(cmd, shell = True, cwd = None,
	stdout = subprocess.PIPE, stderr = subprocess.PIPE, env = None)
	if self._timeout != -1:
	signal.signal(signal.SIGALRM, timeout_handler)
	signal.alarm(self._timeout)

	try:
	_, _ = p.communicate()
	if self._timeout != -1:
	signal.alarm(0)
	except:
	try:
	os.kill(p.pid, signal.SIGKILL)
	except OSError:
	pass
	print 'Timeout'
	return -9
	print '===Return Code===: ' + str(p.returncode)
	print '===Remaining Steps (approx)===: ' \
	+ str(self.estimate(included_ranges))
	return p.returncode

	def flatten(tree):
	if isinstance(tree, list):
	result = []
	for node in tree:
	result.extend(flatten(node))
	return result
	else:
	return [tree] # leaf

	def find_failures(runner, current_interval, include_ranges, find_all):
	if current_interval[0] == current_interval[1]:
	return []
	mid = (current_interval[0] + current_interval[1]) / 2

	first_half = (current_interval[0], mid)
	second_half = (mid, current_interval[1])

	exit_code_2 = 0

	exit_code_1 = runner.Run([first_half] + include_ranges)
	if find_all or exit_code_1 == 0:
	exit_code_2 = runner.Run([second_half] + include_ranges)

	if exit_code_1 == 0 and exit_code_2 == 0:
	# Whole range fails but both halves pass
	# So, some conjunction of functions cause a failure, but none individually.
	partial_result = flatten(find_failures(runner, first_half, [second_half]
	+ include_ranges, find_all))
	# Heavy list concatenation, but this is insignificant compared to the
	# process run times
	partial_result.extend(flatten(find_failures(runner, second_half,
	partial_result + include_ranges, find_all)))
	return [partial_result]
	else:
	result = []
	if exit_code_1 != 0:
	if first_half[1] == first_half[0] + 1:
	result.append(first_half[0])
	else:
	result.extend(find_failures(runner, first_half,
	include_ranges, find_all))
	if exit_code_2 != 0:
	if second_half[1] == second_half[0] + 1:
	result.append(second_half[0])
	else:
	result.extend(find_failures(runner, second_half,
	include_ranges, find_all))
	return result


	def main():
	'''
	Helper Script for Automating Bisection Debugging

	Example Invocation:
	bisection-tool.py --cmd 'bisection-test.py -c 2x3' --end 1000 --timeout 60

	This will invoke 'bisection-test.py -c 2x3' starting with the range -i 0:1000
	If that fails, it will subdivide the range (initially 0:500 and 500:1000)
	recursively to pinpoint a combination of singletons that are needed to cause
	the input to return a non zero exit code or timeout.

	For investigating an error in the generated code:
	bisection-tool.py --cmd './pydir/szbuild_spec2k.py --run 188.ammp'

	For Subzero itself crashing,
	bisection-tool.py --cmd 'pnacl-sz -translate-only=' --comma-join=1
	The --comma-join flag ensures the ranges are formatted in the manner pnacl-sz
	expects.

	If the range specification is not to be appended on the input:
	bisection-tool.py --cmd 'echo %i; cmd-main %i; cmd-post' --template=1

	'''
	argparser = argparse.ArgumentParser(main.__doc__)
	argparser.add_argument('--cmd', required=True, dest='cmd',
	help='Runnable command')

	argparser.add_argument('--start', dest='start', default=0,
	help='Start of initial range')

	argparser.add_argument('--end', dest='end', default=50000,
	help='End of initial range')

	argparser.add_argument('--timeout', dest='timeout', default=60,
	help='Timeout for each invocation of the input')

	argparser.add_argument('--all', type=int, choices=[0,1], default=1,
	dest='all', help='Find all failures')

	argparser.add_argument('--comma-join', type=int, choices=[0,1], default=0,
	dest='comma_join', help='Use comma to join ranges')

	argparser.add_argument('--template', type=int, choices=[0,1], default=0,
	dest='template',
	help='Replace %%i in the cmd string with the ranges')


	args = argparser.parse_args()

	fail_list = []

	initial_range = (int(args.start), int(args.end))
	timeout = int(args.timeout)
	runner = Runner(args.cmd, timeout, args.comma_join, args.template, args.all)
	if runner.Run([initial_range]) != 0:
	fail_list = find_failures(runner, initial_range, [], args.all)
	else:
	print 'Pass'
	# The whole input range works, maybe check subzero build flags?
	# Also consider widening the initial range (control with --start and --end)

	if fail_list:
	print 'Failing Items:'
	for fail in fail_list:
	if isinstance(fail, list):
	fail.sort()
	print '[' + ','.join(str(x) for x in fail) + ']'
	else:
	print fail
	print 'Number of tries: ' + str(runner._num_tries)

	if __name__ == '__main__':
	main()