testing/tools/test_runner.py - platform/external/pdfium - Gitiles

 #!/usr/bin/env python
 # Copyright 2016 The PDFium 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 functools
 import multiprocessing
 import optparse
 import os
 import re
 import shutil
 import subprocess
 import sys

 import common
 import gold
 import pngdiffer
 import suppressor

 # Arbitrary timestamp, expressed in seconds since the epoch, used to make sure
 # that tests that depend on the current time are stable. Happens to be the
 # timestamp of the first commit to repo, 2014/5/9 17:48:50.
 TEST_SEED_TIME = "1399672130"

 class KeyboardInterruptError(Exception): pass

 # Nomenclature:
 #   x_root - "x"
 #   x_filename - "x.ext"
 #   x_path - "path/to/a/b/c/x.ext"
 #   c_dir - "path/to/a/b/c"

 def TestOneFileParallel(this, test_case):
   """Wrapper to call GenerateAndTest() and redirect output to stdout."""
   try:
     input_filename, source_dir = test_case
     result = this.GenerateAndTest(input_filename, source_dir);
     return (result, input_filename, source_dir)
   except KeyboardInterrupt:
     raise KeyboardInterruptError()


 class TestRunner:
   def __init__(self, dirname):
     # Currently the only used directories are corpus, javascript, and pixel,
     # which all correspond directly to the type for the test being run. In the
     # future if there are tests that don't have this clean correspondence, then
     # an argument for the type will need to be added.
     self.test_dir = dirname
     self.test_type = dirname
     self.enforce_expected_images = False
     self.oneshot_renderer = False

   # GenerateAndTest returns a tuple <success, outputfiles> where
   # success is a boolean indicating whether the tests passed comparison
   # tests and outputfiles is a list tuples:
   #          (path_to_image, md5_hash_of_pixelbuffer)
   def GenerateAndTest(self, input_filename, source_dir):
     use_ahem = 'use_ahem' in source_dir

     input_root, _ = os.path.splitext(input_filename)
     expected_txt_path = os.path.join(source_dir, input_root + '_expected.txt')

     pdf_path = os.path.join(self.working_dir, input_root + '.pdf')

     # Remove any existing generated images from previous runs.
     actual_images = self.image_differ.GetActualFiles(input_filename, source_dir,
                                                      self.working_dir)
     for image in actual_images:
       if os.path.exists(image):
         os.remove(image)

     sys.stdout.flush()

     raised_exception = self.Generate(source_dir, input_filename, input_root,
                                      pdf_path)

     if raised_exception is not None:
       print 'FAILURE: %s; %s' % (input_filename, raised_exception)
       return False, []

     results = []
     if os.path.exists(expected_txt_path):
       raised_exception = self.TestText(input_root, expected_txt_path, pdf_path)
     else:
       raised_exception, results = self.TestPixel(input_root, pdf_path, use_ahem)

     if raised_exception is not None:
       print 'FAILURE: %s; %s' % (input_filename, raised_exception)
       return False, results

     if actual_images:
       if self.image_differ.HasDifferences(input_filename, source_dir,
                                           self.working_dir):
         self.RegenerateIfNeeded_(input_filename, source_dir)
         return False, results
     else:
       if (self.enforce_expected_images
           and not self.test_suppressor.IsImageDiffSuppressed(input_filename)):
         self.RegenerateIfNeeded_(input_filename, source_dir)
         print 'FAILURE: %s; Missing expected images' % input_filename
         return False, results

     return True, results

   def RegenerateIfNeeded_(self, input_filename, source_dir):
     if (not self.options.regenerate_expected
         or self.test_suppressor.IsResultSuppressed(input_filename)
         or self.test_suppressor.IsImageDiffSuppressed(input_filename)):
       return

     platform_only = (self.options.regenerate_expected == 'platform')
     self.image_differ.Regenerate(input_filename, source_dir,
                                  self.working_dir, platform_only)

   def Generate(self, source_dir, input_filename, input_root, pdf_path):
     original_path = os.path.join(source_dir, input_filename)
     input_path = os.path.join(source_dir, input_root + '.in')

     input_event_path = os.path.join(source_dir, input_root + '.evt')
     if os.path.exists(input_event_path):
       output_event_path = os.path.splitext(pdf_path)[0] + '.evt'
       shutil.copyfile(input_event_path, output_event_path)

     if not os.path.exists(input_path):
       if os.path.exists(original_path):
         shutil.copyfile(original_path, pdf_path)
       return None

     sys.stdout.flush()

     return common.RunCommand(
         [sys.executable, self.fixup_path, '--output-dir=' + self.working_dir,
             input_path])

   def TestText(self, input_root, expected_txt_path, pdf_path):
     txt_path = os.path.join(self.working_dir, input_root + '.txt')

     with open(txt_path, 'w') as outfile:
       cmd_to_run = [self.pdfium_test_path, '--send-events',
                     '--time=' + TEST_SEED_TIME, pdf_path]
       subprocess.check_call(cmd_to_run, stdout=outfile)

     cmd = [sys.executable, self.text_diff_path, expected_txt_path, txt_path]
     return common.RunCommand(cmd)

   def TestPixel(self, input_root, pdf_path, use_ahem):
     cmd_to_run = [self.pdfium_test_path, '--send-events', '--png', '--md5',
                   '--time=' + TEST_SEED_TIME]

     if self.oneshot_renderer:
       cmd_to_run.append('--render-oneshot')

     if use_ahem:
       cmd_to_run.append('--font-dir=%s' % self.font_dir)

     cmd_to_run.append(pdf_path)
     return common.RunCommandExtractHashedFiles(cmd_to_run)

   def HandleResult(self, input_filename, input_path, result):
     success, image_paths = result

     if image_paths:
       for img_path, md5_hash in image_paths:
         # The output filename without image extension becomes the test name.
         # For example, "/path/to/.../testing/corpus/example_005.pdf.0.png"
         # becomes "example_005.pdf.0".
         test_name = os.path.splitext(os.path.split(img_path)[1])[0]

         matched = "suppressed"
         if not self.test_suppressor.IsResultSuppressed(input_filename):
           matched = self.gold_baseline.MatchLocalResult(test_name, md5_hash)
           if matched == gold.GoldBaseline.MISMATCH:
             print 'Skia Gold hash mismatch for test case: %s' % test_name
           elif matched ==  gold.GoldBaseline.NO_BASELINE:
             print 'No Skia Gold baseline found for test case: %s' % test_name

         if self.gold_results:
           self.gold_results.AddTestResult(test_name, md5_hash, img_path, matched)

     if self.test_suppressor.IsResultSuppressed(input_filename):
       self.result_suppressed_cases.append(input_filename)
       if success:
         self.surprises.append(input_path)
     else:
       if not success:
         self.failures.append(input_path)

   def Run(self):
     parser = optparse.OptionParser()

     parser.add_option('--build-dir', default=os.path.join('out', 'Debug'),
                       help='relative path from the base source directory')

     parser.add_option('-j', default=multiprocessing.cpu_count(),
                       dest='num_workers', type='int',
                       help='run NUM_WORKERS jobs in parallel')

     parser.add_option('--gold_properties', default='', dest="gold_properties",
                       help='Key value pairs that are written to the top level '
                            'of the JSON file that is ingested by Gold.')

     parser.add_option('--gold_key', default='', dest="gold_key",
                       help='Key value pairs that are added to the "key" field '
                            'of the JSON file that is ingested by Gold.')

     parser.add_option('--gold_output_dir', default='', dest="gold_output_dir",
                       help='Path of where to write the JSON output to be '
                            'uploaded to Gold.')

     parser.add_option('--gold_ignore_hashes', default='',
                       dest="gold_ignore_hashes",
                       help='Path to a file with MD5 hashes we wish to ignore.')

     parser.add_option('--regenerate_expected', default='',
                       dest="regenerate_expected",
                       help='Regenerates expected images. Valid values are '
                            '"all" to regenerate all expected pngs, and '
                            '"platform" to regenerate only platform-specific '
                            'expected pngs.')

     parser.add_option('--ignore_errors', action="store_true",
                       dest="ignore_errors",
                       help='Prevents the return value from being non-zero '
                            'when image comparison fails.')

     self.options, self.args = parser.parse_args()

     if (self.options.regenerate_expected
         and self.options.regenerate_expected not in ['all', 'platform']) :
       print 'FAILURE: --regenerate_expected must be "all" or "platform"'
       return 1

     finder = common.DirectoryFinder(self.options.build_dir)
     self.fixup_path = finder.ScriptPath('fixup_pdf_template.py')
     self.text_diff_path = finder.ScriptPath('text_diff.py')
     self.font_dir = os.path.join(finder.TestingDir(), 'resources', 'fonts')

     self.source_dir = finder.TestingDir()
     if self.test_dir != 'corpus':
       test_dir = finder.TestingDir(os.path.join('resources', self.test_dir))
     else:
       test_dir = finder.TestingDir(self.test_dir)

     self.pdfium_test_path = finder.ExecutablePath('pdfium_test')
     if not os.path.exists(self.pdfium_test_path):
       print "FAILURE: Can't find test executable '%s'" % self.pdfium_test_path
       print 'Use --build-dir to specify its location.'
       return 1

     self.working_dir = finder.WorkingDir(os.path.join('testing', self.test_dir))
     if not os.path.exists(self.working_dir):
       os.makedirs(self.working_dir)

     self.feature_string = subprocess.check_output([self.pdfium_test_path,
                                                    '--show-config'])
     self.test_suppressor = suppressor.Suppressor(finder, self.feature_string)
     self.image_differ = pngdiffer.PNGDiffer(finder)

     self.gold_baseline = gold.GoldBaseline(self.options.gold_properties)

     walk_from_dir = finder.TestingDir(test_dir);

     self.test_cases = []
     self.execution_suppressed_cases = []
     input_file_re = re.compile('^.+[.](in|pdf)$')
     if self.args:
       for file_name in self.args:
         file_name.replace('.pdf', '.in')
         input_path = os.path.join(walk_from_dir, file_name)
         if not os.path.isfile(input_path):
           print "Can't find test file '%s'" % file_name
           return 1

         self.test_cases.append((os.path.basename(input_path),
                            os.path.dirname(input_path)))
     else:
       for file_dir, _, filename_list in os.walk(walk_from_dir):
         for input_filename in filename_list:
           if input_file_re.match(input_filename):
             input_path = os.path.join(file_dir, input_filename)
             if self.test_suppressor.IsExecutionSuppressed(input_path):
               self.execution_suppressed_cases.append(input_path)
             else:
               if os.path.isfile(input_path):
                 self.test_cases.append((input_filename, file_dir))

     self.test_cases.sort()
     self.failures = []
     self.surprises = []
     self.result_suppressed_cases = []

     # Collect Gold results if an output directory was named.
     self.gold_results = None
     if self.options.gold_output_dir:
       self.gold_results = gold.GoldResults(self.test_type,
                                            self.options.gold_output_dir,
                                            self.options.gold_properties,
                                            self.options.gold_key,
                                            self.options.gold_ignore_hashes)

     if self.options.num_workers > 1 and len(self.test_cases) > 1:
       try:
         pool = multiprocessing.Pool(self.options.num_workers)
         worker_func = functools.partial(TestOneFileParallel, self)

         worker_results = pool.imap(worker_func, self.test_cases)
         for worker_result in worker_results:
           result, input_filename, source_dir = worker_result
           input_path = os.path.join(source_dir, input_filename)

           self.HandleResult(input_filename, input_path, result)

       except KeyboardInterrupt:
         pool.terminate()
       finally:
         pool.close()
         pool.join()
     else:
       for test_case in self.test_cases:
         input_filename, input_file_dir = test_case
         result = self.GenerateAndTest(input_filename, input_file_dir)
         self.HandleResult(input_filename,
                           os.path.join(input_file_dir, input_filename), result)

     if self.gold_results:
       self.gold_results.WriteResults()

     if self.surprises:
       self.surprises.sort()
       print '\n\nUnexpected Successes:'
       for surprise in self.surprises:
         print surprise

     if self.failures:
       self.failures.sort()
       print '\n\nSummary of Failures:'
       for failure in self.failures:
         print failure

     self._PrintSummary()

     if self.failures:
       if not self.options.ignore_errors:
         return 1

     return 0

   def _PrintSummary(self):
     number_test_cases = len(self.test_cases)
     number_failures = len(self.failures)
     number_suppressed = len(self.result_suppressed_cases)
     number_successes = number_test_cases - number_failures - number_suppressed
     number_surprises = len(self.surprises)
     print
     print 'Test cases executed: %d' % number_test_cases
     print '  Successes: %d' % number_successes
     print '  Suppressed: %d' % number_suppressed
     print '    Surprises: %d' % number_surprises
     print '  Failures: %d' % number_failures
     print
     print 'Test cases not executed: %d' % len(self.execution_suppressed_cases)

   def SetEnforceExpectedImages(self, new_value):
     """Set whether to enforce that each test case provide an expected image."""
     self.enforce_expected_images = new_value

   def SetOneShotRenderer(self, new_value):
     """Set whether to use the oneshot renderer. """
     self.oneshot_renderer = new_value
	#!/usr/bin/env python
	# Copyright 2016 The PDFium 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 functools
	import multiprocessing
	import optparse
	import os
	import re
	import shutil
	import subprocess
	import sys

	import common
	import gold
	import pngdiffer
	import suppressor

	# Arbitrary timestamp, expressed in seconds since the epoch, used to make sure
	# that tests that depend on the current time are stable. Happens to be the
	# timestamp of the first commit to repo, 2014/5/9 17:48:50.
	TEST_SEED_TIME = "1399672130"

	class KeyboardInterruptError(Exception): pass

	# Nomenclature:
	# x_root - "x"
	# x_filename - "x.ext"
	# x_path - "path/to/a/b/c/x.ext"
	# c_dir - "path/to/a/b/c"

	def TestOneFileParallel(this, test_case):
	"""Wrapper to call GenerateAndTest() and redirect output to stdout."""
	try:
	input_filename, source_dir = test_case
	result = this.GenerateAndTest(input_filename, source_dir);
	return (result, input_filename, source_dir)
	except KeyboardInterrupt:
	raise KeyboardInterruptError()


	class TestRunner:
	def __init__(self, dirname):
	# Currently the only used directories are corpus, javascript, and pixel,
	# which all correspond directly to the type for the test being run. In the
	# future if there are tests that don't have this clean correspondence, then
	# an argument for the type will need to be added.
	self.test_dir = dirname
	self.test_type = dirname
	self.enforce_expected_images = False
	self.oneshot_renderer = False

	# GenerateAndTest returns a tuple <success, outputfiles> where
	# success is a boolean indicating whether the tests passed comparison
	# tests and outputfiles is a list tuples:
	# (path_to_image, md5_hash_of_pixelbuffer)
	def GenerateAndTest(self, input_filename, source_dir):
	use_ahem = 'use_ahem' in source_dir

	input_root, _ = os.path.splitext(input_filename)
	expected_txt_path = os.path.join(source_dir, input_root + '_expected.txt')

	pdf_path = os.path.join(self.working_dir, input_root + '.pdf')

	# Remove any existing generated images from previous runs.
	actual_images = self.image_differ.GetActualFiles(input_filename, source_dir,
	self.working_dir)
	for image in actual_images:
	if os.path.exists(image):
	os.remove(image)

	sys.stdout.flush()

	raised_exception = self.Generate(source_dir, input_filename, input_root,
	pdf_path)

	if raised_exception is not None:
	print 'FAILURE: %s; %s' % (input_filename, raised_exception)
	return False, []

	results = []
	if os.path.exists(expected_txt_path):
	raised_exception = self.TestText(input_root, expected_txt_path, pdf_path)
	else:
	raised_exception, results = self.TestPixel(input_root, pdf_path, use_ahem)

	if raised_exception is not None:
	print 'FAILURE: %s; %s' % (input_filename, raised_exception)
	return False, results

	if actual_images:
	if self.image_differ.HasDifferences(input_filename, source_dir,
	self.working_dir):
	self.RegenerateIfNeeded_(input_filename, source_dir)
	return False, results
	else:
	if (self.enforce_expected_images
	and not self.test_suppressor.IsImageDiffSuppressed(input_filename)):
	self.RegenerateIfNeeded_(input_filename, source_dir)
	print 'FAILURE: %s; Missing expected images' % input_filename
	return False, results

	return True, results

	def RegenerateIfNeeded_(self, input_filename, source_dir):
	if (not self.options.regenerate_expected
	or self.test_suppressor.IsResultSuppressed(input_filename)
	or self.test_suppressor.IsImageDiffSuppressed(input_filename)):
	return

	platform_only = (self.options.regenerate_expected == 'platform')
	self.image_differ.Regenerate(input_filename, source_dir,
	self.working_dir, platform_only)

	def Generate(self, source_dir, input_filename, input_root, pdf_path):
	original_path = os.path.join(source_dir, input_filename)
	input_path = os.path.join(source_dir, input_root + '.in')

	input_event_path = os.path.join(source_dir, input_root + '.evt')
	if os.path.exists(input_event_path):
	output_event_path = os.path.splitext(pdf_path)[0] + '.evt'
	shutil.copyfile(input_event_path, output_event_path)

	if not os.path.exists(input_path):
	if os.path.exists(original_path):
	shutil.copyfile(original_path, pdf_path)
	return None

	sys.stdout.flush()

	return common.RunCommand(
	[sys.executable, self.fixup_path, '--output-dir=' + self.working_dir,
	input_path])

	def TestText(self, input_root, expected_txt_path, pdf_path):
	txt_path = os.path.join(self.working_dir, input_root + '.txt')

	with open(txt_path, 'w') as outfile:
	cmd_to_run = [self.pdfium_test_path, '--send-events',
	'--time=' + TEST_SEED_TIME, pdf_path]
	subprocess.check_call(cmd_to_run, stdout=outfile)

	cmd = [sys.executable, self.text_diff_path, expected_txt_path, txt_path]
	return common.RunCommand(cmd)

	def TestPixel(self, input_root, pdf_path, use_ahem):
	cmd_to_run = [self.pdfium_test_path, '--send-events', '--png', '--md5',
	'--time=' + TEST_SEED_TIME]

	if self.oneshot_renderer:
	cmd_to_run.append('--render-oneshot')

	if use_ahem:
	cmd_to_run.append('--font-dir=%s' % self.font_dir)

	cmd_to_run.append(pdf_path)
	return common.RunCommandExtractHashedFiles(cmd_to_run)

	def HandleResult(self, input_filename, input_path, result):
	success, image_paths = result

	if image_paths:
	for img_path, md5_hash in image_paths:
	# The output filename without image extension becomes the test name.
	# For example, "/path/to/.../testing/corpus/example_005.pdf.0.png"
	# becomes "example_005.pdf.0".
	test_name = os.path.splitext(os.path.split(img_path)[1])[0]

	matched = "suppressed"
	if not self.test_suppressor.IsResultSuppressed(input_filename):
	matched = self.gold_baseline.MatchLocalResult(test_name, md5_hash)
	if matched == gold.GoldBaseline.MISMATCH:
	print 'Skia Gold hash mismatch for test case: %s' % test_name
	elif matched == gold.GoldBaseline.NO_BASELINE:
	print 'No Skia Gold baseline found for test case: %s' % test_name

	if self.gold_results:
	self.gold_results.AddTestResult(test_name, md5_hash, img_path, matched)

	if self.test_suppressor.IsResultSuppressed(input_filename):
	self.result_suppressed_cases.append(input_filename)
	if success:
	self.surprises.append(input_path)
	else:
	if not success:
	self.failures.append(input_path)

	def Run(self):
	parser = optparse.OptionParser()

	parser.add_option('--build-dir', default=os.path.join('out', 'Debug'),
	help='relative path from the base source directory')

	parser.add_option('-j', default=multiprocessing.cpu_count(),
	dest='num_workers', type='int',
	help='run NUM_WORKERS jobs in parallel')

	parser.add_option('--gold_properties', default='', dest="gold_properties",
	help='Key value pairs that are written to the top level '
	'of the JSON file that is ingested by Gold.')

	parser.add_option('--gold_key', default='', dest="gold_key",
	help='Key value pairs that are added to the "key" field '
	'of the JSON file that is ingested by Gold.')

	parser.add_option('--gold_output_dir', default='', dest="gold_output_dir",
	help='Path of where to write the JSON output to be '
	'uploaded to Gold.')

	parser.add_option('--gold_ignore_hashes', default='',
	dest="gold_ignore_hashes",
	help='Path to a file with MD5 hashes we wish to ignore.')

	parser.add_option('--regenerate_expected', default='',
	dest="regenerate_expected",
	help='Regenerates expected images. Valid values are '
	'"all" to regenerate all expected pngs, and '
	'"platform" to regenerate only platform-specific '
	'expected pngs.')

	parser.add_option('--ignore_errors', action="store_true",
	dest="ignore_errors",
	help='Prevents the return value from being non-zero '
	'when image comparison fails.')

	self.options, self.args = parser.parse_args()

	if (self.options.regenerate_expected
	and self.options.regenerate_expected not in ['all', 'platform']) :
	print 'FAILURE: --regenerate_expected must be "all" or "platform"'
	return 1

	finder = common.DirectoryFinder(self.options.build_dir)
	self.fixup_path = finder.ScriptPath('fixup_pdf_template.py')
	self.text_diff_path = finder.ScriptPath('text_diff.py')
	self.font_dir = os.path.join(finder.TestingDir(), 'resources', 'fonts')

	self.source_dir = finder.TestingDir()
	if self.test_dir != 'corpus':
	test_dir = finder.TestingDir(os.path.join('resources', self.test_dir))
	else:
	test_dir = finder.TestingDir(self.test_dir)

	self.pdfium_test_path = finder.ExecutablePath('pdfium_test')
	if not os.path.exists(self.pdfium_test_path):
	print "FAILURE: Can't find test executable '%s'" % self.pdfium_test_path
	print 'Use --build-dir to specify its location.'
	return 1

	self.working_dir = finder.WorkingDir(os.path.join('testing', self.test_dir))
	if not os.path.exists(self.working_dir):
	os.makedirs(self.working_dir)

	self.feature_string = subprocess.check_output([self.pdfium_test_path,
	'--show-config'])
	self.test_suppressor = suppressor.Suppressor(finder, self.feature_string)
	self.image_differ = pngdiffer.PNGDiffer(finder)

	self.gold_baseline = gold.GoldBaseline(self.options.gold_properties)

	walk_from_dir = finder.TestingDir(test_dir);

	self.test_cases = []
	self.execution_suppressed_cases = []
	input_file_re = re.compile('^.+[.](in\|pdf)$')
	if self.args:
	for file_name in self.args:
	file_name.replace('.pdf', '.in')
	input_path = os.path.join(walk_from_dir, file_name)
	if not os.path.isfile(input_path):
	print "Can't find test file '%s'" % file_name
	return 1

	self.test_cases.append((os.path.basename(input_path),
	os.path.dirname(input_path)))
	else:
	for file_dir, _, filename_list in os.walk(walk_from_dir):
	for input_filename in filename_list:
	if input_file_re.match(input_filename):
	input_path = os.path.join(file_dir, input_filename)
	if self.test_suppressor.IsExecutionSuppressed(input_path):
	self.execution_suppressed_cases.append(input_path)
	else:
	if os.path.isfile(input_path):
	self.test_cases.append((input_filename, file_dir))

	self.test_cases.sort()
	self.failures = []
	self.surprises = []
	self.result_suppressed_cases = []

	# Collect Gold results if an output directory was named.
	self.gold_results = None
	if self.options.gold_output_dir:
	self.gold_results = gold.GoldResults(self.test_type,
	self.options.gold_output_dir,
	self.options.gold_properties,
	self.options.gold_key,
	self.options.gold_ignore_hashes)

	if self.options.num_workers > 1 and len(self.test_cases) > 1:
	try:
	pool = multiprocessing.Pool(self.options.num_workers)
	worker_func = functools.partial(TestOneFileParallel, self)

	worker_results = pool.imap(worker_func, self.test_cases)
	for worker_result in worker_results:
	result, input_filename, source_dir = worker_result
	input_path = os.path.join(source_dir, input_filename)

	self.HandleResult(input_filename, input_path, result)

	except KeyboardInterrupt:
	pool.terminate()
	finally:
	pool.close()
	pool.join()
	else:
	for test_case in self.test_cases:
	input_filename, input_file_dir = test_case
	result = self.GenerateAndTest(input_filename, input_file_dir)
	self.HandleResult(input_filename,
	os.path.join(input_file_dir, input_filename), result)

	if self.gold_results:
	self.gold_results.WriteResults()

	if self.surprises:
	self.surprises.sort()
	print '\n\nUnexpected Successes:'
	for surprise in self.surprises:
	print surprise

	if self.failures:
	self.failures.sort()
	print '\n\nSummary of Failures:'
	for failure in self.failures:
	print failure

	self._PrintSummary()

	if self.failures:
	if not self.options.ignore_errors:
	return 1

	return 0

	def _PrintSummary(self):
	number_test_cases = len(self.test_cases)
	number_failures = len(self.failures)
	number_suppressed = len(self.result_suppressed_cases)
	number_successes = number_test_cases - number_failures - number_suppressed
	number_surprises = len(self.surprises)
	print
	print 'Test cases executed: %d' % number_test_cases
	print ' Successes: %d' % number_successes
	print ' Suppressed: %d' % number_suppressed
	print ' Surprises: %d' % number_surprises
	print ' Failures: %d' % number_failures
	print
	print 'Test cases not executed: %d' % len(self.execution_suppressed_cases)

	def SetEnforceExpectedImages(self, new_value):
	"""Set whether to enforce that each test case provide an expected image."""
	self.enforce_expected_images = new_value

	def SetOneShotRenderer(self, new_value):
	"""Set whether to use the oneshot renderer. """
	self.oneshot_renderer = new_value