third_party/apk-patch-size-estimator/apk_patch_size_estimator.py - chromium/src - Git at Google

 #!/usr/bin/python
 #
 # Copyright 2016 Google Inc. All Rights Reserved.
 #
 # 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.

 """Estimates the size of Google Play patches and the new gzipped APK.

 From two APKs it estimates the size of new patches as well as
 the size of a gzipped version of the APK, which would be used in
 cases where patches are unexpectedly large, unavailable, or unsuitable.
 Google Play uses multiple techniques to generate patches and generally picks
 the best match for the device. The best match is usually, but not always, the
 smallest patch file produced. The numbers that this script produces are
 ESTIMATES that can be used to characterize the impact of arbitrary changes to
 APKs. There is NO GUARANTEE that this tool produces the same patches or patch
 sizes that Google Play generates, stores or transmits, and the actual
 implementation within Google Play may change at any time, without notice.

 """

 import sys
 import argparse
 import locale
 import math
 import os
 import subprocess

 _FILEBYFILE_JAR_PATH = os.path.abspath(
     os.path.join(os.path.dirname(__file__), 'lib', 'file-by-file-tools.jar'))

 bsdiff_path = None
 gzip_path = None
 head_path = None
 tail_path = None
 bunzip2_path = None
 java_path = None


 def find_bins_or_die():
   """Checks that all the binaries needed are available.

   The script needs bsdiff, gzip, head, tail and bunzip2
   binaries availables in the system.
   """

   global bsdiff_path
   if not bsdiff_path:
     bsdiff_path = find_binary('bsdiff')
   global gzip_path
   if not gzip_path:
     gzip_path = find_binary('gzip')
   global head_path
   if not head_path:
     head_path = find_binary('head')
   global tail_path
   if not tail_path:
     tail_path = find_binary('tail')
   global bunzip2_path
   if not bunzip2_path:
     bunzip2_path = find_binary('bunzip2')
   global java_path
   if not java_path:
     java_path = find_binary('java')


 def find_binary(binary_name):
   """Finds the path of a binary."""

   try:
     return subprocess.check_output(['which', binary_name]).strip()
   except subprocess.CalledProcessError:
     raise Exception(
         'No "' + binary_name + '" on PATH, please install or fix PATH.')


 def human_file_size(size):
   """Converts a byte size number into a human readable value."""

   size = abs(size)
   if size == 0:
     return '0B'
   units = ['B', 'KB', 'MB', 'GB', 'TB', 'PB', 'EB', 'ZB', 'YB']
   p = math.floor(math.log(size, 2) / 10)
   return '%.3g%s' % (size/math.pow(1024, p), units[int(p)])


 def calculate_bsdiff(old_file, new_file, save_patch_path, temp_path):
   """Estimates the size the Bsdiff patch gzipped.

   Args:
     old_file: the old APK file
     new_file: the new APK file
     save_patch_path: the path including filename to save the generated patch.
     temp_path: the directory to use for the process

   Returns:
     a dictionary with:
       'gzipped_new_file_size': the estimated size of the new gzipped APK
       'bsdiff_patch_size': the estimated size of the patch from the two APKs

   Raises:
     Exception: if there is a problem calling the binaries needed in the process
   """

   # Oddities:
   # Bsdiff forces bzip2 compression, which starts after byte 32. Bzip2 isn't
   # necessarily the best choice in all cases, and isn't necessarily what Google
   # Play uses, so it has to be uncompressed and rewritten with gzip.

   # Checks that the OS binaries needed are available
   find_bins_or_die()
   # Clean temp files
   if os.path.exists(temp_path): os.remove(temp_path)

   # Create the bsdiff of the two APKs
   subprocess.check_output(
       [bsdiff_path, old_file, new_file, temp_path])

   # bsdiff paths
   raw_bsdiff_path = temp_path + '.raw_bsdiff'
   bzipped_bsdiff_path = raw_bsdiff_path + '.bz2'
   gzipped_bsdiff_path = raw_bsdiff_path + '.gz'
   bsdiff_header_path = temp_path + '.raw_bsdiff_header'
   if os.path.exists(raw_bsdiff_path): os.remove(raw_bsdiff_path)
   if os.path.exists(bzipped_bsdiff_path): os.remove(bzipped_bsdiff_path)
   if os.path.exists(gzipped_bsdiff_path): os.remove(gzipped_bsdiff_path)
   if os.path.exists(bsdiff_header_path): os.remove(bsdiff_header_path)

   # Strip the first 32 bytes the bsdiff file, which is a bsdiff-specific header.
   bsdiff_header = open(bsdiff_header_path, 'w')
   p = subprocess.Popen(
       [head_path, '-c', '32', bsdiff_header_path],
       shell=False, stdout=bsdiff_header)
   ret_code = p.wait()
   if ret_code != 0:
     raise Exception('Problem at the bsdiff step, returned code: %s' % ret_code)
   bsdiff_header.flush()
   bsdiff_header.close()

   # Take the remainder of the file to gain an uncompressed copy.
   bzipped_bsdiff_patch = open(bzipped_bsdiff_path, 'w')
   p = subprocess.Popen(
       [tail_path, '-c', '+33', temp_path],
       shell=False, stdout=bzipped_bsdiff_patch)
   ret_code = p.wait()
   if ret_code != 0:
     raise Exception('Problem at the tail step, returned code: %s' % ret_code)
   bzipped_bsdiff_patch.flush()
   bzipped_bsdiff_patch.close()
   subprocess.check_output([bunzip2_path, '-d', '-q', bzipped_bsdiff_path])

   # Prepend the 32 bytes of bsdiff header back onto the uncompressed file.
   if save_patch_path:
     rebuilt_bsdiff_path = save_patch_path + '-bsdiff-patch'
   else:
     rebuilt_bsdiff_path = raw_bsdiff_path + '.rebuilt'
   gzipped_rebuilt_bsdiff_path = rebuilt_bsdiff_path + '.gz'
   if os.path.exists(rebuilt_bsdiff_path): os.remove(rebuilt_bsdiff_path)
   if os.path.exists(gzipped_rebuilt_bsdiff_path):
     os.remove(gzipped_rebuilt_bsdiff_path)
   rebuilt_bsdiff = open(rebuilt_bsdiff_path, 'w')
   p = subprocess.Popen(
       ['cat', bsdiff_header_path, raw_bsdiff_path],
       shell=False, stdout=rebuilt_bsdiff)
   ret_code = p.wait()
   if ret_code != 0:
     raise Exception('Problem at the cat step, returned code: %s' % ret_code)
   rebuilt_bsdiff.flush()
   rebuilt_bsdiff.close()

   # gzip the patch and get its size.
   subprocess.check_output([gzip_path, '-9', rebuilt_bsdiff_path])
   bsdiff_patch_size = os.stat(gzipped_rebuilt_bsdiff_path).st_size

   # Clean up.
   if os.path.exists(temp_path): os.remove(temp_path)
   if os.path.exists(raw_bsdiff_path): os.remove(raw_bsdiff_path)
   if os.path.exists(bsdiff_header_path): os.remove(bsdiff_header_path)
   if os.path.exists(gzipped_bsdiff_path): os.remove(gzipped_bsdiff_path)
   if not save_patch_path and os.path.exists(gzipped_rebuilt_bsdiff_path):
     os.remove(gzipped_rebuilt_bsdiff_path)

   return bsdiff_patch_size


 def calculate_new_apk(new_file, temp_path):
   """Estimates the size the new APK gzipped.

   Args:
     new_file: the new APK file
     temp_path: the directory to use for the process

   Returns:
     the size of the new APK gzipped

   Raises:
     Exception: if there is a problem calling the binaries needed in the process
   """

   # Checks that the OS binaries needed are available
   find_bins_or_die()
   # Clean temp files
   if os.path.exists(temp_path + '.gz'): os.remove(temp_path + '.gz')

   # gzip new APK and get its size
   gzipped_new_file = open(temp_path, 'w')
   p = subprocess.Popen(
       [gzip_path, '--keep', '-c', '-9', new_file],
       shell=False, stdout=gzipped_new_file)
   ret_code = p.wait()
   if ret_code != 0: raise Exception(
       'Problem gzipping the new APK, returned code: %s' % ret_code)
   gzipped_new_file.flush()
   gzipped_new_file.close()
   gzipped_size = os.stat(temp_path).st_size
   # Clean up
   if os.path.exists(temp_path + '.gz'): os.remove(temp_path + '.gz')
   return gzipped_size


 def calculate_filebyfile(old_file, new_file, save_patch_path, temp_path):
   """Estimates the size the File-by-File patch gzipped.

   Args:
     old_file: the old APK file
     new_file: the new APK file
     save_patch_path: the path including filename to save the generated patch.
     temp_path: the directory to use for the process

   Returns:
     the size the File-by-File patch gzipped

   Raises:
     Exception: if there is a problem calling the binaries needed in the process
   """

   # Checks that the OS binaries needed are available
   find_bins_or_die()
   # Clean temp files
   if os.path.exists(temp_path): os.remove(temp_path)

   if save_patch_path:
     filebyfile_patch_path = save_patch_path + '-file-by-file-patch'
   else:
     filebyfile_patch_path = temp_path + '.filebyfile'
   gzipped_filebyfile_patch_path = filebyfile_patch_path + '.gz'
   if os.path.exists(gzipped_filebyfile_patch_path):
     os.remove(gzipped_filebyfile_patch_path)

   # file by file patch
   # We use a jar from https://github.com/andrewhayden/archive-patcher
   if os.path.exists(filebyfile_patch_path): os.remove(filebyfile_patch_path)
   p = subprocess.Popen(
       [java_path, '-jar', _FILEBYFILE_JAR_PATH, '--generate', '--old', old_file,
        '--new', new_file, '--patch', filebyfile_patch_path],
       shell=False)
   ret_code = p.wait()
   if ret_code != 0: raise Exception(
       'Problem creating file by file patch, returned code: %s' % ret_code)

   # gzip file by file patch and get its size
   subprocess.check_output([gzip_path, '-9', filebyfile_patch_path])
   gzipped_filebyfile_patch_size = os.stat(gzipped_filebyfile_patch_path).st_size
   # Clean temp files
   if os.path.exists(temp_path): os.remove(temp_path)
   if not save_patch_path and os.path.exists(gzipped_filebyfile_patch_path):
     os.remove(gzipped_filebyfile_patch_path)
   return gzipped_filebyfile_patch_size


 def main():
   locale.setlocale(locale.LC_ALL, '')

   parser = argparse.ArgumentParser(
       description='Estimate the sizes of APK patches for Google Play')
   parser.add_argument(
       '--old-file', default=None, required=True,
       help='the path to the "old" file to generate patches from.')
   parser.add_argument(
       '--new-file', default=None, required=True,
       help='the path to the "new" file to generate patches from.')
   parser.add_argument(
       '--save-patch', default=None,
       help='the path prefix to save the generated patches.')
   parser.add_argument(
       '--temp-dir', default='/tmp',
       help='the temp directory to use for patch generation; defaults to /tmp')
   if not sys.argv[1:]:
     parser.print_help()
     parser.exit()
   args = parser.parse_args()

   if not os.path.isfile(args.old_file):
     raise Exception('File does not exist: %s' % args.old_file)
   if not os.path.isfile(args.new_file):
     raise Exception('File does not exist: %s' % args.new_file)
   if args.save_patch and not os.access(
       os.path.dirname(os.path.abspath(args.save_patch)), os.W_OK):
     raise Exception('The save patch path is not writable: %s' % args.save_patch)
   if args.save_patch and os.path.isdir(args.save_patch):
     raise Exception('Please include the filename in the path: %s'
                     % args.save_patch)
   save_patch_path = args.save_patch
   if not os.path.isdir(args.temp_dir):
     raise Exception('Temp directory does not exist: %s' % args.temp_dir)
   temp_path = args.temp_dir + '/patch.tmp'

   new_file_size = os.stat(args.new_file).st_size

   bsdiff_size = calculate_bsdiff(
       args.old_file, args.new_file, save_patch_path, temp_path)

   gzipped_size = calculate_new_apk(args.new_file, temp_path)

   # Calculate the size of the File-by-File patch gzipped
   gzipped_filebyfile_patch_size = calculate_filebyfile(
       args.old_file, args.new_file, save_patch_path, temp_path)

   print ('\nNew APK size on disk: %s bytes [%s]'
          % (locale.format('%d', new_file_size, grouping=True),
             human_file_size(new_file_size)))

   print '\nEstimated download size for new installs:'
   print ('   Full new APK (gzipped) size:'
          ' %s bytes [%s]'
          % (locale.format('%d', gzipped_size, grouping=True),
             human_file_size(gzipped_size)))

   print '\nEstimated download size for updates from the old APK, using Bsdiff:'
   print ('   Bsdiff patch (gzipped) size: %s bytes [%s]'
          % (locale.format('%d', bsdiff_size, grouping=True),
             human_file_size(bsdiff_size)))

   print '\nEstimated download size for updates from the old APK,'
   print ' using File-by-File:'
   print ('   File-by-File patch (gzipped) size: %s bytes [%s]\n'
          % (locale.format('%d', gzipped_filebyfile_patch_size, grouping=True),
             human_file_size(gzipped_filebyfile_patch_size)))


 if __name__ == '__main__':
   main()
	#!/usr/bin/python
	#
	# Copyright 2016 Google Inc. All Rights Reserved.
	#
	# 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.

	"""Estimates the size of Google Play patches and the new gzipped APK.

	From two APKs it estimates the size of new patches as well as
	the size of a gzipped version of the APK, which would be used in
	cases where patches are unexpectedly large, unavailable, or unsuitable.
	Google Play uses multiple techniques to generate patches and generally picks
	the best match for the device. The best match is usually, but not always, the
	smallest patch file produced. The numbers that this script produces are
	ESTIMATES that can be used to characterize the impact of arbitrary changes to
	APKs. There is NO GUARANTEE that this tool produces the same patches or patch
	sizes that Google Play generates, stores or transmits, and the actual
	implementation within Google Play may change at any time, without notice.

	"""

	import sys
	import argparse
	import locale
	import math
	import os
	import subprocess

	_FILEBYFILE_JAR_PATH = os.path.abspath(
	os.path.join(os.path.dirname(__file__), 'lib', 'file-by-file-tools.jar'))

	bsdiff_path = None
	gzip_path = None
	head_path = None
	tail_path = None
	bunzip2_path = None
	java_path = None


	def find_bins_or_die():
	"""Checks that all the binaries needed are available.

	The script needs bsdiff, gzip, head, tail and bunzip2
	binaries availables in the system.
	"""

	global bsdiff_path
	if not bsdiff_path:
	bsdiff_path = find_binary('bsdiff')
	global gzip_path
	if not gzip_path:
	gzip_path = find_binary('gzip')
	global head_path
	if not head_path:
	head_path = find_binary('head')
	global tail_path
	if not tail_path:
	tail_path = find_binary('tail')
	global bunzip2_path
	if not bunzip2_path:
	bunzip2_path = find_binary('bunzip2')
	global java_path
	if not java_path:
	java_path = find_binary('java')


	def find_binary(binary_name):
	"""Finds the path of a binary."""

	try:
	return subprocess.check_output(['which', binary_name]).strip()
	except subprocess.CalledProcessError:
	raise Exception(
	'No "' + binary_name + '" on PATH, please install or fix PATH.')


	def human_file_size(size):
	"""Converts a byte size number into a human readable value."""

	size = abs(size)
	if size == 0:
	return '0B'
	units = ['B', 'KB', 'MB', 'GB', 'TB', 'PB', 'EB', 'ZB', 'YB']
	p = math.floor(math.log(size, 2) / 10)
	return '%.3g%s' % (size/math.pow(1024, p), units[int(p)])


	def calculate_bsdiff(old_file, new_file, save_patch_path, temp_path):
	"""Estimates the size the Bsdiff patch gzipped.

	Args:
	old_file: the old APK file
	new_file: the new APK file
	save_patch_path: the path including filename to save the generated patch.
	temp_path: the directory to use for the process

	Returns:
	a dictionary with:
	'gzipped_new_file_size': the estimated size of the new gzipped APK
	'bsdiff_patch_size': the estimated size of the patch from the two APKs

	Raises:
	Exception: if there is a problem calling the binaries needed in the process
	"""

	# Oddities:
	# Bsdiff forces bzip2 compression, which starts after byte 32. Bzip2 isn't
	# necessarily the best choice in all cases, and isn't necessarily what Google
	# Play uses, so it has to be uncompressed and rewritten with gzip.

	# Checks that the OS binaries needed are available
	find_bins_or_die()
	# Clean temp files
	if os.path.exists(temp_path): os.remove(temp_path)

	# Create the bsdiff of the two APKs
	subprocess.check_output(
	[bsdiff_path, old_file, new_file, temp_path])

	# bsdiff paths
	raw_bsdiff_path = temp_path + '.raw_bsdiff'
	bzipped_bsdiff_path = raw_bsdiff_path + '.bz2'
	gzipped_bsdiff_path = raw_bsdiff_path + '.gz'
	bsdiff_header_path = temp_path + '.raw_bsdiff_header'
	if os.path.exists(raw_bsdiff_path): os.remove(raw_bsdiff_path)
	if os.path.exists(bzipped_bsdiff_path): os.remove(bzipped_bsdiff_path)
	if os.path.exists(gzipped_bsdiff_path): os.remove(gzipped_bsdiff_path)
	if os.path.exists(bsdiff_header_path): os.remove(bsdiff_header_path)

	# Strip the first 32 bytes the bsdiff file, which is a bsdiff-specific header.
	bsdiff_header = open(bsdiff_header_path, 'w')
	p = subprocess.Popen(
	[head_path, '-c', '32', bsdiff_header_path],
	shell=False, stdout=bsdiff_header)
	ret_code = p.wait()
	if ret_code != 0:
	raise Exception('Problem at the bsdiff step, returned code: %s' % ret_code)
	bsdiff_header.flush()
	bsdiff_header.close()

	# Take the remainder of the file to gain an uncompressed copy.
	bzipped_bsdiff_patch = open(bzipped_bsdiff_path, 'w')
	p = subprocess.Popen(
	[tail_path, '-c', '+33', temp_path],
	shell=False, stdout=bzipped_bsdiff_patch)
	ret_code = p.wait()
	if ret_code != 0:
	raise Exception('Problem at the tail step, returned code: %s' % ret_code)
	bzipped_bsdiff_patch.flush()
	bzipped_bsdiff_patch.close()
	subprocess.check_output([bunzip2_path, '-d', '-q', bzipped_bsdiff_path])

	# Prepend the 32 bytes of bsdiff header back onto the uncompressed file.
	if save_patch_path:
	rebuilt_bsdiff_path = save_patch_path + '-bsdiff-patch'
	else:
	rebuilt_bsdiff_path = raw_bsdiff_path + '.rebuilt'
	gzipped_rebuilt_bsdiff_path = rebuilt_bsdiff_path + '.gz'
	if os.path.exists(rebuilt_bsdiff_path): os.remove(rebuilt_bsdiff_path)
	if os.path.exists(gzipped_rebuilt_bsdiff_path):
	os.remove(gzipped_rebuilt_bsdiff_path)
	rebuilt_bsdiff = open(rebuilt_bsdiff_path, 'w')
	p = subprocess.Popen(
	['cat', bsdiff_header_path, raw_bsdiff_path],
	shell=False, stdout=rebuilt_bsdiff)
	ret_code = p.wait()
	if ret_code != 0:
	raise Exception('Problem at the cat step, returned code: %s' % ret_code)
	rebuilt_bsdiff.flush()
	rebuilt_bsdiff.close()

	# gzip the patch and get its size.
	subprocess.check_output([gzip_path, '-9', rebuilt_bsdiff_path])
	bsdiff_patch_size = os.stat(gzipped_rebuilt_bsdiff_path).st_size

	# Clean up.
	if os.path.exists(temp_path): os.remove(temp_path)
	if os.path.exists(raw_bsdiff_path): os.remove(raw_bsdiff_path)
	if os.path.exists(bsdiff_header_path): os.remove(bsdiff_header_path)
	if os.path.exists(gzipped_bsdiff_path): os.remove(gzipped_bsdiff_path)
	if not save_patch_path and os.path.exists(gzipped_rebuilt_bsdiff_path):
	os.remove(gzipped_rebuilt_bsdiff_path)

	return bsdiff_patch_size


	def calculate_new_apk(new_file, temp_path):
	"""Estimates the size the new APK gzipped.

	Args:
	new_file: the new APK file
	temp_path: the directory to use for the process

	Returns:
	the size of the new APK gzipped

	Raises:
	Exception: if there is a problem calling the binaries needed in the process
	"""

	# Checks that the OS binaries needed are available
	find_bins_or_die()
	# Clean temp files
	if os.path.exists(temp_path + '.gz'): os.remove(temp_path + '.gz')

	# gzip new APK and get its size
	gzipped_new_file = open(temp_path, 'w')
	p = subprocess.Popen(
	[gzip_path, '--keep', '-c', '-9', new_file],
	shell=False, stdout=gzipped_new_file)
	ret_code = p.wait()
	if ret_code != 0: raise Exception(
	'Problem gzipping the new APK, returned code: %s' % ret_code)
	gzipped_new_file.flush()
	gzipped_new_file.close()
	gzipped_size = os.stat(temp_path).st_size
	# Clean up
	if os.path.exists(temp_path + '.gz'): os.remove(temp_path + '.gz')
	return gzipped_size


	def calculate_filebyfile(old_file, new_file, save_patch_path, temp_path):
	"""Estimates the size the File-by-File patch gzipped.

	Args:
	old_file: the old APK file
	new_file: the new APK file
	save_patch_path: the path including filename to save the generated patch.
	temp_path: the directory to use for the process

	Returns:
	the size the File-by-File patch gzipped

	Raises:
	Exception: if there is a problem calling the binaries needed in the process
	"""

	# Checks that the OS binaries needed are available
	find_bins_or_die()
	# Clean temp files
	if os.path.exists(temp_path): os.remove(temp_path)

	if save_patch_path:
	filebyfile_patch_path = save_patch_path + '-file-by-file-patch'
	else:
	filebyfile_patch_path = temp_path + '.filebyfile'
	gzipped_filebyfile_patch_path = filebyfile_patch_path + '.gz'
	if os.path.exists(gzipped_filebyfile_patch_path):
	os.remove(gzipped_filebyfile_patch_path)

	# file by file patch
	# We use a jar from https://github.com/andrewhayden/archive-patcher
	if os.path.exists(filebyfile_patch_path): os.remove(filebyfile_patch_path)
	p = subprocess.Popen(
	[java_path, '-jar', _FILEBYFILE_JAR_PATH, '--generate', '--old', old_file,
	'--new', new_file, '--patch', filebyfile_patch_path],
	shell=False)
	ret_code = p.wait()
	if ret_code != 0: raise Exception(
	'Problem creating file by file patch, returned code: %s' % ret_code)

	# gzip file by file patch and get its size
	subprocess.check_output([gzip_path, '-9', filebyfile_patch_path])
	gzipped_filebyfile_patch_size = os.stat(gzipped_filebyfile_patch_path).st_size
	# Clean temp files
	if os.path.exists(temp_path): os.remove(temp_path)
	if not save_patch_path and os.path.exists(gzipped_filebyfile_patch_path):
	os.remove(gzipped_filebyfile_patch_path)
	return gzipped_filebyfile_patch_size


	def main():
	locale.setlocale(locale.LC_ALL, '')

	parser = argparse.ArgumentParser(
	description='Estimate the sizes of APK patches for Google Play')
	parser.add_argument(
	'--old-file', default=None, required=True,
	help='the path to the "old" file to generate patches from.')
	parser.add_argument(
	'--new-file', default=None, required=True,
	help='the path to the "new" file to generate patches from.')
	parser.add_argument(
	'--save-patch', default=None,
	help='the path prefix to save the generated patches.')
	parser.add_argument(
	'--temp-dir', default='/tmp',
	help='the temp directory to use for patch generation; defaults to /tmp')
	if not sys.argv[1:]:
	parser.print_help()
	parser.exit()
	args = parser.parse_args()

	if not os.path.isfile(args.old_file):
	raise Exception('File does not exist: %s' % args.old_file)
	if not os.path.isfile(args.new_file):
	raise Exception('File does not exist: %s' % args.new_file)
	if args.save_patch and not os.access(
	os.path.dirname(os.path.abspath(args.save_patch)), os.W_OK):
	raise Exception('The save patch path is not writable: %s' % args.save_patch)
	if args.save_patch and os.path.isdir(args.save_patch):
	raise Exception('Please include the filename in the path: %s'
	% args.save_patch)
	save_patch_path = args.save_patch
	if not os.path.isdir(args.temp_dir):
	raise Exception('Temp directory does not exist: %s' % args.temp_dir)
	temp_path = args.temp_dir + '/patch.tmp'

	new_file_size = os.stat(args.new_file).st_size

	bsdiff_size = calculate_bsdiff(
	args.old_file, args.new_file, save_patch_path, temp_path)

	gzipped_size = calculate_new_apk(args.new_file, temp_path)

	# Calculate the size of the File-by-File patch gzipped
	gzipped_filebyfile_patch_size = calculate_filebyfile(
	args.old_file, args.new_file, save_patch_path, temp_path)

	print ('\nNew APK size on disk: %s bytes [%s]'
	% (locale.format('%d', new_file_size, grouping=True),
	human_file_size(new_file_size)))

	print '\nEstimated download size for new installs:'
	print (' Full new APK (gzipped) size:'
	' %s bytes [%s]'
	% (locale.format('%d', gzipped_size, grouping=True),
	human_file_size(gzipped_size)))

	print '\nEstimated download size for updates from the old APK, using Bsdiff:'
	print (' Bsdiff patch (gzipped) size: %s bytes [%s]'
	% (locale.format('%d', bsdiff_size, grouping=True),
	human_file_size(bsdiff_size)))

	print '\nEstimated download size for updates from the old APK,'
	print ' using File-by-File:'
	print (' File-by-File patch (gzipped) size: %s bytes [%s]\n'
	% (locale.format('%d', gzipped_filebyfile_patch_size, grouping=True),
	human_file_size(gzipped_filebyfile_patch_size)))


	if __name__ == '__main__':
	main()