tools/test_gpuveto.py - skia - Git at Google

 #!/usr/bin/env python

 # Copyright 2014 Google Inc.
 #
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Script to test out suitableForGpuRasterization (via gpuveto)"""

 import argparse
 import glob
 import os
 import re
 import subprocess
 import sys

 # Set the PYTHONPATH to include the tools directory.
 sys.path.append(
     os.path.join(os.path.dirname(os.path.realpath(__file__)), os.pardir))
 import find_run_binary

 def list_files(dir_or_file):
     """Returns a list of all the files from the provided argument

     @param dir_or_file: either a directory or skp file

     @returns a list containing the files in the directory or a single file
     """
     files = []
     for globbedpath in glob.iglob(dir_or_file): # useful on win32
         if os.path.isdir(globbedpath):
             for filename in os.listdir(globbedpath):
                 newpath = os.path.join(globbedpath, filename)
                 if os.path.isfile(newpath):
                     files.append(newpath)
         elif os.path.isfile(globbedpath):
             files.append(globbedpath)
     return files


 def execute_program(args):
     """Executes a process and waits for it to complete.

     @param args: is passed into subprocess.Popen().

     @returns a tuple of the process output (returncode, output)
     """
     proc = subprocess.Popen(args, stdout=subprocess.PIPE,
                             stderr=subprocess.STDOUT)
     output, _ = proc.communicate()
     errcode = proc.returncode
     return (errcode, output)


 class GpuVeto(object):

     def __init__(self):
         self.bench_pictures = find_run_binary.find_path_to_program(
             'bench_pictures')
         sys.stdout.write('Running: %s\n' % (self.bench_pictures))
         self.gpuveto = find_run_binary.find_path_to_program('gpuveto')
         assert os.path.isfile(self.bench_pictures)
         assert os.path.isfile(self.gpuveto)
         self.indeterminate = 0
         self.truePositives = 0
         self.falsePositives = 0
         self.trueNegatives = 0
         self.falseNegatives = 0

     def process_skps(self, dir_or_file):
         for skp in enumerate(dir_or_file):
             self.process_skp(skp[1])

         sys.stdout.write('TP %d FP %d TN %d FN %d IND %d\n' % (self.truePositives,
                                                                self.falsePositives,
                                                                self.trueNegatives,
                                                                self.falseNegatives,
                                                                self.indeterminate))


     def process_skp(self, skp_file):
         assert os.path.isfile(skp_file)
         #print skp_file

         # run gpuveto on the skp
         args = [self.gpuveto, '-r', skp_file]
         returncode, output = execute_program(args)
         if (returncode != 0):
             return

         if ('unsuitable' in output):
             suitable = False
         else:
             assert 'suitable' in output
             suitable = True

         # run raster config
         args = [self.bench_pictures, '-r', skp_file,
                                      '--repeat', '20',
                                      '--timers', 'w',
                                      '--config', '8888']
         returncode, output = execute_program(args)
         if (returncode != 0):
             return

         matches = re.findall('[\d]+\.[\d]+', output)
         if len(matches) != 1:
             return

         rasterTime = float(matches[0])

         # run gpu config
         args2 = [self.bench_pictures, '-r', skp_file,
                                       '--repeat', '20',
                                       '--timers', 'w',
                                       '--config', 'gpu']
         returncode, output = execute_program(args2)
         if (returncode != 0):
             return

         matches = re.findall('[\d]+\.[\d]+', output)
         if len(matches) != 1:
             return

         gpuTime = float(matches[0])

         # happens if page is too big it will not render
         if 0 == gpuTime:
             return

         tolerance = 0.05
         tol_range = tolerance * gpuTime


         if rasterTime > gpuTime - tol_range and rasterTime < gpuTime + tol_range:
             result = "NONE"
             self.indeterminate += 1
         elif suitable:
             if gpuTime < rasterTime:
                 self.truePositives += 1
                 result = "TP"
             else:
                 self.falsePositives += 1
                 result = "FP"
         else:
             if gpuTime < rasterTime:
                 self.falseNegatives += 1
                 result = "FN"
             else:
                 self.trueNegatives += 1
                 result = "TN"


         sys.stdout.write('%s: gpuveto: %d raster %.2f gpu: %.2f  Result: %s\n' % (
             skp_file, suitable, rasterTime, gpuTime, result))

 def main(main_argv):
     parser = argparse.ArgumentParser()
     parser.add_argument('--skp_path',
                         help='Path to the SKP(s). Can either be a directory ' \
                         'containing SKPs or a single SKP.',
                         required=True)

     args = parser.parse_args()
     GpuVeto().process_skps(list_files(args.skp_path))

 if __name__ == '__main__':
     sys.exit(main(sys.argv[1]))
	#!/usr/bin/env python

	# Copyright 2014 Google Inc.
	#
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Script to test out suitableForGpuRasterization (via gpuveto)"""

	import argparse
	import glob
	import os
	import re
	import subprocess
	import sys

	# Set the PYTHONPATH to include the tools directory.
	sys.path.append(
	os.path.join(os.path.dirname(os.path.realpath(__file__)), os.pardir))
	import find_run_binary

	def list_files(dir_or_file):
	"""Returns a list of all the files from the provided argument

	@param dir_or_file: either a directory or skp file

	@returns a list containing the files in the directory or a single file
	"""
	files = []
	for globbedpath in glob.iglob(dir_or_file): # useful on win32
	if os.path.isdir(globbedpath):
	for filename in os.listdir(globbedpath):
	newpath = os.path.join(globbedpath, filename)
	if os.path.isfile(newpath):
	files.append(newpath)
	elif os.path.isfile(globbedpath):
	files.append(globbedpath)
	return files


	def execute_program(args):
	"""Executes a process and waits for it to complete.

	@param args: is passed into subprocess.Popen().

	@returns a tuple of the process output (returncode, output)
	"""
	proc = subprocess.Popen(args, stdout=subprocess.PIPE,
	stderr=subprocess.STDOUT)
	output, _ = proc.communicate()
	errcode = proc.returncode
	return (errcode, output)


	class GpuVeto(object):

	def __init__(self):
	self.bench_pictures = find_run_binary.find_path_to_program(
	'bench_pictures')
	sys.stdout.write('Running: %s\n' % (self.bench_pictures))
	self.gpuveto = find_run_binary.find_path_to_program('gpuveto')
	assert os.path.isfile(self.bench_pictures)
	assert os.path.isfile(self.gpuveto)
	self.indeterminate = 0
	self.truePositives = 0
	self.falsePositives = 0
	self.trueNegatives = 0
	self.falseNegatives = 0

	def process_skps(self, dir_or_file):
	for skp in enumerate(dir_or_file):
	self.process_skp(skp[1])

	sys.stdout.write('TP %d FP %d TN %d FN %d IND %d\n' % (self.truePositives,
	self.falsePositives,
	self.trueNegatives,
	self.falseNegatives,
	self.indeterminate))


	def process_skp(self, skp_file):
	assert os.path.isfile(skp_file)
	#print skp_file

	# run gpuveto on the skp
	args = [self.gpuveto, '-r', skp_file]
	returncode, output = execute_program(args)
	if (returncode != 0):
	return

	if ('unsuitable' in output):
	suitable = False
	else:
	assert 'suitable' in output
	suitable = True

	# run raster config
	args = [self.bench_pictures, '-r', skp_file,
	'--repeat', '20',
	'--timers', 'w',
	'--config', '8888']
	returncode, output = execute_program(args)
	if (returncode != 0):
	return

	matches = re.findall('[\d]+\.[\d]+', output)
	if len(matches) != 1:
	return

	rasterTime = float(matches[0])

	# run gpu config
	args2 = [self.bench_pictures, '-r', skp_file,
	'--repeat', '20',
	'--timers', 'w',
	'--config', 'gpu']
	returncode, output = execute_program(args2)
	if (returncode != 0):
	return

	matches = re.findall('[\d]+\.[\d]+', output)
	if len(matches) != 1:
	return

	gpuTime = float(matches[0])

	# happens if page is too big it will not render
	if 0 == gpuTime:
	return

	tolerance = 0.05
	tol_range = tolerance * gpuTime


	if rasterTime > gpuTime - tol_range and rasterTime < gpuTime + tol_range:
	result = "NONE"
	self.indeterminate += 1
	elif suitable:
	if gpuTime < rasterTime:
	self.truePositives += 1
	result = "TP"
	else:
	self.falsePositives += 1
	result = "FP"
	else:
	if gpuTime < rasterTime:
	self.falseNegatives += 1
	result = "FN"
	else:
	self.trueNegatives += 1
	result = "TN"


	sys.stdout.write('%s: gpuveto: %d raster %.2f gpu: %.2f Result: %s\n' % (
	skp_file, suitable, rasterTime, gpuTime, result))

	def main(main_argv):
	parser = argparse.ArgumentParser()
	parser.add_argument('--skp_path',
	help='Path to the SKP(s). Can either be a directory ' \
	'containing SKPs or a single SKP.',
	required=True)

	args = parser.parse_args()
	GpuVeto().process_skps(list_files(args.skp_path))

	if __name__ == '__main__':
	sys.exit(main(sys.argv[1]))