testing/xdelta3-test.py - platform/external/xdelta3 - Git at Google

 #!/usr/bin/python2.7
 # xdelta 3 - delta compression tools and library
 # Copyright (C) 2003, 2006, 2007.  Joshua P. MacDonald
 #
 #  This program is free software; you can redistribute it and/or modify
 #  it under the terms of the GNU General Public License as published by
 #  the Free Software Foundation; either version 2 of the License, or
 #  (at your option) any later version.
 #
 #  This program is distributed in the hope that it will be useful,
 #  but WITHOUT ANY WARRANTY; without even the implied warranty of
 #  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 #  GNU General Public License for more details.
 #
 #  You should have received a copy of the GNU General Public License
 #  along with this program; if not, write to the Free Software
 #  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

 import xdelta3

 # the test data section is expected to be len('target')
 source = 'source source input0 source source'
 target = 'source source target source source'

 #
 #

 print 'encode: basic ...'
 result, patch = xdelta3.xd3_encode_memory(target, source, 50)

 assert result == 0
 assert len(patch) < len(source)

 print 'encode: adler32 ...'
 result, patch_adler32 = xdelta3.xd3_encode_memory(target, source, 50,
                                                   xdelta3.XD3_ADLER32)

 assert result == 0
 assert len(patch_adler32) < len(source)
 assert len(patch_adler32) > len(patch)

 print 'encode: secondary ...'
 result, patch_djw = xdelta3.xd3_encode_memory(target, source, 50,
                                               xdelta3.XD3_SEC_DJW)

 assert result == 0
 # secondary compression doesn't help
 assert len(patch_djw) > len(patch)

 print 'encode: exact ...'
 result, ignore = xdelta3.xd3_encode_memory(target, source, len(patch))

 assert result == 0
 assert len(ignore) < len(source)

 print 'encode: out of space ...'
 result, ignore = xdelta3.xd3_encode_memory(target, source, len(patch) - 1)

 assert result == 28
 assert ignore == None

 print 'encode: zero space ...'
 result, ignore = xdelta3.xd3_encode_memory(target, source, 0)

 assert result == 28
 assert ignore == None

 print 'encode: no source ...'
 result, zdata = xdelta3.xd3_encode_memory(target, None, 50)

 assert result == 0
 assert len(zdata) > len(patch)

 print 'encode: no input ...'
 result, ignore = xdelta3.xd3_encode_memory(None, None, 50)

 assert result != 0

 print 'decode: basic ...'
 result, target1 = xdelta3.xd3_decode_memory(patch, source, len(target))

 assert result == 0
 assert len(target1) == len(target)
 assert target1 == target

 print 'decode: out of space ...'
 result, ignore = xdelta3.xd3_decode_memory(patch, source, len(target) - 1)

 assert result == 28
 assert ignore == None

 print 'decode: zero space ...'
 result, ignore = xdelta3.xd3_decode_memory(patch, source, 0)

 assert result == 28
 assert ignore == None

 print 'decode: single byte error ...'
 # a few expected single-byte errors, e.g., unused address cache bits, see
 # xdelta3-test.h's single-bit error tests
 extra_count = 4
 noverify_count = 0
 for corrupt_pos in range(len(patch_adler32)):
     input = ''.join([j == corrupt_pos and '\xff' or patch_adler32[j]
                      for j in range(len(patch_adler32))])

     result, ignore = xdelta3.xd3_decode_memory(input, source, len(target), 0)
     assert result == -17712
     assert ignore == None

     # without adler32 verification, the error may be in the data section which
     # in this case is 6 bytes 'target'
     result, corrupt = xdelta3.xd3_decode_memory(input, source, len(target),
                                                 xdelta3.XD3_ADLER32_NOVER)
     if result == 0:
         noverify_count = noverify_count + 1
         #print "got %s" % corrupt
     #end
 #end
 assert noverify_count == len('target') + extra_count

 print 'decode: no source ...'
 result, target2 = xdelta3.xd3_decode_memory(zdata, None, len(target))

 assert result == 0
 assert target == target2

 # Test compression level setting via flags.  assumes a 9 byte checksum
 # and that level 9 steps 2, level 1 steps 15:
 #         01234567890123456789012345678901
 # level 1 only indexes 2 checksums "abcdefghi" and "ABCDEFGHI"
 # outputs 43 vs. 23 bytes
 print 'encode: compression level ...'

 source = '_la_la_abcdefghi_la_la_ABCDEFGHI'
 target = 'la_la_ABCDEFGH__la_la_abcdefgh__'

 result1, level1 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_COMPLEVEL_1)
 result9, level9 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_COMPLEVEL_9)

 assert result1 == 0 and result9 == 0
 assert len(level1) > len(level9)

 #
 # Issue 65
 print 'encode: 65 ...'
 source = 'Hello World'
 target = 'Hello everyone'
 result, patch = xdelta3.xd3_encode_memory(target, source, len(target))
 assert result != 0

 result, patch = xdelta3.xd3_encode_memory(target, source, 2 * len(target))
 assert result == 0

 print 'PASS'
	#!/usr/bin/python2.7
	# xdelta 3 - delta compression tools and library
	# Copyright (C) 2003, 2006, 2007. Joshua P. MacDonald
	#
	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 2 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program; if not, write to the Free Software
	# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

	import xdelta3

	# the test data section is expected to be len('target')
	source = 'source source input0 source source'
	target = 'source source target source source'

	#
	#

	print 'encode: basic ...'
	result, patch = xdelta3.xd3_encode_memory(target, source, 50)

	assert result == 0
	assert len(patch) < len(source)

	print 'encode: adler32 ...'
	result, patch_adler32 = xdelta3.xd3_encode_memory(target, source, 50,
	xdelta3.XD3_ADLER32)

	assert result == 0
	assert len(patch_adler32) < len(source)
	assert len(patch_adler32) > len(patch)

	print 'encode: secondary ...'
	result, patch_djw = xdelta3.xd3_encode_memory(target, source, 50,
	xdelta3.XD3_SEC_DJW)

	assert result == 0
	# secondary compression doesn't help
	assert len(patch_djw) > len(patch)

	print 'encode: exact ...'
	result, ignore = xdelta3.xd3_encode_memory(target, source, len(patch))

	assert result == 0
	assert len(ignore) < len(source)

	print 'encode: out of space ...'
	result, ignore = xdelta3.xd3_encode_memory(target, source, len(patch) - 1)

	assert result == 28
	assert ignore == None

	print 'encode: zero space ...'
	result, ignore = xdelta3.xd3_encode_memory(target, source, 0)

	assert result == 28
	assert ignore == None

	print 'encode: no source ...'
	result, zdata = xdelta3.xd3_encode_memory(target, None, 50)

	assert result == 0
	assert len(zdata) > len(patch)

	print 'encode: no input ...'
	result, ignore = xdelta3.xd3_encode_memory(None, None, 50)

	assert result != 0

	print 'decode: basic ...'
	result, target1 = xdelta3.xd3_decode_memory(patch, source, len(target))

	assert result == 0
	assert len(target1) == len(target)
	assert target1 == target

	print 'decode: out of space ...'
	result, ignore = xdelta3.xd3_decode_memory(patch, source, len(target) - 1)

	assert result == 28
	assert ignore == None

	print 'decode: zero space ...'
	result, ignore = xdelta3.xd3_decode_memory(patch, source, 0)

	assert result == 28
	assert ignore == None

	print 'decode: single byte error ...'
	# a few expected single-byte errors, e.g., unused address cache bits, see
	# xdelta3-test.h's single-bit error tests
	extra_count = 4
	noverify_count = 0
	for corrupt_pos in range(len(patch_adler32)):
	input = ''.join([j == corrupt_pos and '\xff' or patch_adler32[j]
	for j in range(len(patch_adler32))])

	result, ignore = xdelta3.xd3_decode_memory(input, source, len(target), 0)
	assert result == -17712
	assert ignore == None

	# without adler32 verification, the error may be in the data section which
	# in this case is 6 bytes 'target'
	result, corrupt = xdelta3.xd3_decode_memory(input, source, len(target),
	xdelta3.XD3_ADLER32_NOVER)
	if result == 0:
	noverify_count = noverify_count + 1
	#print "got %s" % corrupt
	#end
	#end
	assert noverify_count == len('target') + extra_count

	print 'decode: no source ...'
	result, target2 = xdelta3.xd3_decode_memory(zdata, None, len(target))

	assert result == 0
	assert target == target2

	# Test compression level setting via flags. assumes a 9 byte checksum
	# and that level 9 steps 2, level 1 steps 15:
	# 01234567890123456789012345678901
	# level 1 only indexes 2 checksums "abcdefghi" and "ABCDEFGHI"
	# outputs 43 vs. 23 bytes
	print 'encode: compression level ...'

	source = '_la_la_abcdefghi_la_la_ABCDEFGHI'
	target = 'la_la_ABCDEFGH__la_la_abcdefgh__'

	result1, level1 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_COMPLEVEL_1)
	result9, level9 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_COMPLEVEL_9)

	assert result1 == 0 and result9 == 0
	assert len(level1) > len(level9)

	#
	# Issue 65
	print 'encode: 65 ...'
	source = 'Hello World'
	target = 'Hello everyone'
	result, patch = xdelta3.xd3_encode_memory(target, source, len(target))
	assert result != 0

	result, patch = xdelta3.xd3_encode_memory(target, source, 2 * len(target))
	assert result == 0

	print 'PASS'