Datasets:

Che237
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cyberforge-datasets

	# this is a standalone single-file merge of aplib compression and decompression
	# taken from my own library Kabopan http://code.google.com/p/kabopan/
	# (no other clean-up or improvement)

	# Ange Albertini, BSD Licence, 2007-2011

	# from kbp\comp\_lz77.py ##################################################
	def find_longest_match(s, sub):
	"""returns the number of byte to look backward and the length of byte to copy)"""
	if sub == "":
	return 0, 0
	limit = len(s)
	dic = s[:]
	l = 0
	offset = 0
	length = 0
	first = 0
	word = ""

	word += sub[l]
	pos = dic.rfind(word, 0, limit + 1)
	if pos == -1:
	return offset, length

	offset = limit - pos
	length = len(word)
	dic += sub[l]

	while l < len(sub) - 1:
	l += 1
	word += sub[l]

	pos = dic.rfind(word, 0, limit + 1)
	if pos == -1:
	return offset, length
	offset = limit - pos
	length = len(word)
	dic += sub[l]
	return offset, length

	# from _misc.py ###############################

	def int2lebin(value, size):
	"""ouputs value in binary, as little-endian"""
	result = ""
	for i in xrange(size):
	result = result + chr((value >> (8 * i)) & 0xFF )
	return result

	def modifystring(s, sub, offset):
	"""overwrites 'sub' at 'offset' of 's'"""
	return s[:offset] + sub + s[offset + len(sub):]

	def getbinlen(value):
	"""return the bit length of an integer"""
	result = 0
	if value == 0:
	return 1
	while value != 0:
	value >>= 1
	result += 1
	return result

	# from kbp\_bits.py #################################
	class _bits_compress():
	"""bit machine for variable-sized auto-reloading tag compression"""
	def __init__(self, tagsize):
	"""tagsize is the number of bytes that takes the tag"""
	self.out = ""

	self.__tagsize = tagsize
	self.__tag = 0
	self.__tagoffset = -1
	self.__maxbit = (self.__tagsize * 8) - 1
	self.__curbit = 0
	self.__isfirsttag = True


	def getdata(self):
	"""builds an output string of what's currently compressed:
	currently output bit + current tag content"""
	tagstr = int2lebin(self.__tag, self.__tagsize)
	return modifystring(self.out, tagstr, self.__tagoffset)

	def write_bit(self, value):
	"""writes a bit, make space for the tag if necessary"""
	if self.__curbit != 0:
	self.__curbit -= 1
	else:
	if self.__isfirsttag:
	self.__isfirsttag = False
	else:
	self.out = self.getdata()
	self.__tagoffset = len(self.out)
	self.out += "".join(["\x00"] * self.__tagsize)
	self.__curbit = self.__maxbit
	self.__tag = 0

	if value:
	self.__tag \|= (1 << self.__curbit)
	return

	def write_bitstring(self, s):
	"""write a string of bits"""
	for c in s:
	self.write_bit(0 if c == "0" else 1)
	return

	def write_byte(self, b):
	"""writes a char or a number"""
	assert len(b) == 1 if isinstance(b, str) else 0 <= b <= 255
	self.out += b[0:1] if isinstance(b, str) else chr(b)
	return

	def write_fixednumber(self, value, nbbit):
	"""write a value on a fixed range of bits"""
	for i in xrange(nbbit - 1, -1, -1):
	self.write_bit( (value >> i) & 1)
	return

	def write_variablenumber(self, value):
	assert value >= 2

	length = getbinlen(value) - 2 # the highest bit is 1
	self.write_bit(value & (1 << length))
	for i in xrange(length - 1, -1, -1):
	self.write_bit(1)
	self.write_bit(value & (1 << i))
	self.write_bit(0)
	return

	class _bits_decompress():
	"""bit machine for variable-sized auto-reloading tag decompression"""
	def __init__(self, data, tagsize):
	self.__curbit = 0
	self.__offset = 0
	self.__tag = None
	self.__tagsize = tagsize
	self.__in = data
	self.out = ""

	def getoffset(self):
	"""return the current byte offset"""
	return self.__offset

	# def getdata(self):
	# return self.__lzdata

	def read_bit(self):
	"""read next bit from the stream, reloads the tag if necessary"""
	if self.__curbit != 0:
	self.__curbit -= 1
	else:
	self.__curbit = (self.__tagsize * 8) - 1
	self.__tag = ord(self.read_byte())
	for i in xrange(self.__tagsize - 1):
	self.__tag += ord(self.read_byte()) << (8 * (i + 1))

	bit = (self.__tag >> ((self.__tagsize * 8) - 1)) & 0x01
	self.__tag <<= 1
	return bit

	def is_end(self):
	return self.__offset == len(self.__in) and self.__curbit == 1

	def read_byte(self):
	"""read next byte from the stream"""
	if type(self.__in) == str:
	result = self.__in[self.__offset]
	elif type(self.__in) == file:
	result = self.__in.read(1)
	self.__offset += 1
	return result

	def read_fixednumber(self, nbbit, init=0):
	"""reads a fixed bit-length number"""
	result = init
	for i in xrange(nbbit):
	result = (result << 1) + self.read_bit()
	return result

	def read_variablenumber(self):
	"""return a variable bit-length number x, x >= 2

	reads a bit until the next bit in the pair is not set"""
	result = 1
	result = (result << 1) + self.read_bit()
	while self.read_bit():
	result = (result << 1) + self.read_bit()
	return result

	def read_setbits(self, max_, set_=1):
	"""read bits as long as their set or a maximum is reached"""
	result = 0
	while result < max_ and self.read_bit() == set_:
	result += 1
	return result

	def back_copy(self, offset, length=1):
	for i in xrange(length):
	self.out += self.out[-offset]
	return

	def read_literal(self, value=None):
	if value is None:
	self.out += self.read_byte()
	else:
	self.out += value
	return False

	# from kbp\comp\aplib.py ###################################################
	"""
	aPLib, LZSS based lossless compression algorithm

	Jorgen Ibsen U{http://www.ibsensoftware.com}
	"""

	def lengthdelta(offset):
	if offset < 0x80 or 0x7D00 <= offset:
	return 2
	elif 0x500 <= offset:
	return 1
	return 0

	class compress(_bits_compress):
	"""
	aplib compression is based on lz77
	"""
	def __init__(self, data, length=None):
	_bits_compress.__init__(self, 1)
	self.__in = data
	self.__length = length if length is not None else len(data)
	self.__offset = 0
	self.__lastoffset = 0
	self.__pair = True
	return

	def __literal(self, marker=True):
	if marker:
	self.write_bit(0)
	self.write_byte(self.__in[self.__offset])
	self.__offset += 1
	self.__pair = True
	return

	def __block(self, offset, length):
	assert offset >= 2
	self.write_bitstring("10")

	# if the last operations were literal or single byte
	# and the offset is unchanged since the last block copy
	# we can just store a 'null' offset and the length
	if self.__pair and self.__lastoffset == offset:
	self.write_variablenumber(2) # 2-
	self.write_variablenumber(length)
	else:
	high = (offset >> 8) + 2
	if self.__pair:
	high += 1
	self.write_variablenumber(high)
	low = offset & 0xFF
	self.write_byte(low)
	self.write_variablenumber(length - lengthdelta(offset))
	self.__offset += length
	self.__lastoffset = offset
	self.__pair = False
	return

	def __shortblock(self, offset, length):
	assert 2 <= length <= 3
	assert 0 < offset <= 127
	self.write_bitstring("110")
	b = (offset << 1 ) + (length - 2)
	self.write_byte(b)
	self.__offset += length
	self.__lastoffset = offset
	self.__pair = False
	return

	def __singlebyte(self, offset):
	assert 0 <= offset < 16
	self.write_bitstring("111")
	self.write_fixednumber(offset, 4)
	self.__offset += 1
	self.__pair = True
	return

	def __end(self):
	self.write_bitstring("110")
	self.write_byte(chr(0))
	return

	def do(self):
	self.__literal(False)
	while self.__offset < self.__length:
	offset, length = find_longest_match(self.__in[:self.__offset],
	self.__in[self.__offset:])
	if length == 0:
	c = self.__in[self.__offset]
	if c == "\x00":
	self.__singlebyte(0)
	else:
	self.__literal()
	elif length == 1 and 0 <= offset < 16:
	self.__singlebyte(offset)
	elif 2 <= length <= 3 and 0 < offset <= 127:
	self.__shortblock(offset, length)
	elif 3 <= length and 2 <= offset:
	self.__block(offset, length)
	else:
	self.__literal()
	#raise ValueError("no parsing found", offset, length)
	self.__end()
	return self.getdata()


	class decompress(_bits_decompress):
	def __init__(self, data):
	_bits_decompress.__init__(self, data, tagsize=1)
	self.__pair = True # paired sequence
	self.__lastoffset = 0
	self.__functions = [
	self.__literal,
	self.__block,
	self.__shortblock,
	self.__singlebyte]
	return

	def __literal(self):
	self.read_literal()
	self.__pair = True
	return False

	def __block(self):
	b = self.read_variablenumber() # 2-
	if b == 2 and self.__pair : # reuse the same offset
	offset = self.__lastoffset
	length = self.read_variablenumber() # 2-
	else:
	high = b - 2 # 0-
	if self.__pair:
	high -= 1
	offset = (high << 8) + ord(self.read_byte())
	length = self.read_variablenumber() # 2-
	length += lengthdelta(offset)
	self.__lastoffset = offset
	self.back_copy(offset, length)
	self.__pair = False
	return False

	def __shortblock(self):
	b = ord(self.read_byte())
	if b <= 1: # likely 0
	return True
	length = 2 + (b & 0x01) # 2-3
	offset = b >> 1 # 1-127
	self.back_copy(offset, length)
	self.__lastoffset = offset
	self.__pair = False
	return False

	def __singlebyte(self):
	offset = self.read_fixednumber(4) # 0-15
	if offset:
	self.back_copy(offset)
	else:
	self.read_literal('\x00')
	self.__pair = True
	return False

	def do(self):
	"""returns decompressed buffer and consumed bytes counter"""
	self.read_literal()
	while True:
	if self.__functions[self.read_setbits(3)]():
	break
	return self.out, self.getoffset()

	if __name__ == "__main__":
	# from kbp\test\aplib_test.py ######################################################################
	assert decompress(compress("a").do()).do() == ("a", 3)
	assert decompress(compress("ababababababab").do()).do() == ('ababababababab', 9)
	assert decompress(compress("aaaaaaaaaaaaaacaaaaaa").do()).do() == ('aaaaaaaaaaaaaacaaaaaa', 11)