python/lib/Lib/zlib.py - platform/tools/idea - Git at Google

 """
 The functions in this module allow compression and decompression using the
 zlib library, which is based on GNU zip.

 adler32(string[, start]) -- Compute an Adler-32 checksum.
 compress(string[, level]) -- Compress string, with compression level in 1-9.
 compressobj([level]) -- Return a compressor object.
 crc32(string[, start]) -- Compute a CRC-32 checksum.
 decompress(string,[wbits],[bufsize]) -- Decompresses a compressed string.
 decompressobj([wbits]) -- Return a decompressor object.

 'wbits' is window buffer size.
 Compressor objects support compress() and flush() methods; decompressor
 objects support decompress() and flush().
 """
 import array
 import binascii
 import jarray

 from java.util.zip import Adler32, Deflater, Inflater, DataFormatException
 from java.lang import Long, String

 from cStringIO import StringIO

 class error(Exception):
     pass


 DEFLATED = 8
 MAX_WBITS = 15
 DEF_MEM_LEVEL = 8
 ZLIB_VERSION = "1.1.3"
 Z_BEST_COMPRESSION = 9
 Z_BEST_SPEED = 1

 Z_FILTERED = 1
 Z_HUFFMAN_ONLY = 2

 Z_DEFAULT_COMPRESSION = -1
 Z_DEFAULT_STRATEGY = 0

 # Most options are removed because java does not support them
 # Z_NO_FLUSH = 0
 # Z_SYNC_FLUSH = 2
 # Z_FULL_FLUSH = 3
 Z_FINISH = 4
 _valid_flush_modes = (Z_FINISH,)

 def adler32(s, value=1):
     if value != 1:
         raise ValueError, "adler32 only support start value of 1"
     checksum = Adler32()
     checksum.update(String.getBytes(s, 'iso-8859-1'))
     return Long(checksum.getValue()).intValue()

 def crc32(string, value=0):
     return binascii.crc32(string, value)


 def compress(string, level=6):
     if level < Z_BEST_SPEED or level > Z_BEST_COMPRESSION:
         raise error, "Bad compression level"
     deflater = Deflater(level, 0)
     string = _to_input(string)
     deflater.setInput(string, 0, len(string))
     deflater.finish()
     return _get_deflate_data(deflater)

 def decompress(string, wbits=0, bufsize=16384):
     inflater = Inflater(wbits < 0)
     inflater.setInput(_to_input(string))

     return _get_inflate_data(inflater)

 class compressobj:
     # all jython uses wbits for is deciding whether to skip the header if it's negative
     def __init__(self, level=6, method=DEFLATED, wbits=MAX_WBITS,
                        memLevel=0, strategy=0):
         if abs(wbits) > MAX_WBITS or abs(wbits) < 8:
             raise ValueError, "Invalid initialization option"
         self.deflater = Deflater(level, wbits < 0)
         self.deflater.setStrategy(strategy)
         if wbits < 0:
             _get_deflate_data(self.deflater)
         self._ended = False

     def compress(self, string):
         if self._ended:
             raise error("compressobj may not be used after flush(Z_FINISH)")
         string = _to_input(string)
         self.deflater.setInput(string, 0, len(string))
         return _get_deflate_data(self.deflater)

     def flush(self, mode=Z_FINISH):
         if self._ended:
             raise error("compressobj may not be used after flush(Z_FINISH)")
         if mode not in _valid_flush_modes:
             raise ValueError, "Invalid flush option"
         self.deflater.finish()
         last = _get_deflate_data(self.deflater)
         if mode == Z_FINISH:
             self.deflater.end()
             self._ended = True
         return last

 class decompressobj:
     # all jython uses wbits for is deciding whether to skip the header if it's negative
     def __init__(self, wbits=MAX_WBITS):
         if abs(wbits) > MAX_WBITS or abs(wbits) < 8:
             raise ValueError, "Invalid initialization option"
         self.inflater = Inflater(wbits < 0)
         self.unused_data = ""
         self._ended = False

     def decompress(self, string, max_length=0):
         if self._ended:
             raise error("decompressobj may not be used after flush()")

         # unused_data is always "" until inflation is finished; then it is
         # the unused bytes of the input;
         # unconsumed_tail is whatever input was not used because max_length
         # was exceeded before inflation finished.
         # Thus, at most one of {unused_data, unconsumed_tail} may be non-empty.
         self.unused_data = ""
         self.unconsumed_tail = ""

         if max_length < 0:
             raise ValueError("max_length must be a positive integer")

         string = _to_input(string)
         self.inflater.setInput(string)
         inflated = _get_inflate_data(self.inflater, max_length)

         r = self.inflater.getRemaining()
         if r:
             if max_length:
                 self.unconsumed_tail = string[-r:]
             else:
                 self.unused_data = string[-r:]

         return inflated

     def flush(self, length=None):
         if self._ended:
             raise error("decompressobj may not be used after flush()")
         if length is None:
             length = 0
         elif length <= 0:
             raise ValueError('length must be greater than zero')
         last = _get_inflate_data(self.inflater, length)
         self.inflater.end()
         return last

 def _to_input(string):
     return string.tostring() if isinstance(string, array.array) else string

 def _get_deflate_data(deflater):
     buf = jarray.zeros(1024, 'b')
     s = StringIO()
     while not deflater.finished():
         l = deflater.deflate(buf)

         if l == 0:
             break
         s.write(String(buf, 0, 0, l))
     s.seek(0)
     return s.read()

 def _get_inflate_data(inflater, max_length=0):
     buf = jarray.zeros(1024, 'b')
     s = StringIO()
     total = 0
     while not inflater.finished():
         try:
             if max_length:
                 l = inflater.inflate(buf, 0, min(1024, max_length - total))
             else:
                 l = inflater.inflate(buf)
         except DataFormatException, e:
             raise error(str(e))

         if l == 0:
             break

         total += l
         s.write(String(buf, 0, 0, l))
         if max_length and total == max_length:
             break
     s.seek(0)
     return s.read()
	"""
	The functions in this module allow compression and decompression using the
	zlib library, which is based on GNU zip.

	adler32(string[, start]) -- Compute an Adler-32 checksum.
	compress(string[, level]) -- Compress string, with compression level in 1-9.
	compressobj([level]) -- Return a compressor object.
	crc32(string[, start]) -- Compute a CRC-32 checksum.
	decompress(string,[wbits],[bufsize]) -- Decompresses a compressed string.
	decompressobj([wbits]) -- Return a decompressor object.

	'wbits' is window buffer size.
	Compressor objects support compress() and flush() methods; decompressor
	objects support decompress() and flush().
	"""
	import array
	import binascii
	import jarray

	from java.util.zip import Adler32, Deflater, Inflater, DataFormatException
	from java.lang import Long, String

	from cStringIO import StringIO

	class error(Exception):
	pass


	DEFLATED = 8
	MAX_WBITS = 15
	DEF_MEM_LEVEL = 8
	ZLIB_VERSION = "1.1.3"
	Z_BEST_COMPRESSION = 9
	Z_BEST_SPEED = 1

	Z_FILTERED = 1
	Z_HUFFMAN_ONLY = 2

	Z_DEFAULT_COMPRESSION = -1
	Z_DEFAULT_STRATEGY = 0

	# Most options are removed because java does not support them
	# Z_NO_FLUSH = 0
	# Z_SYNC_FLUSH = 2
	# Z_FULL_FLUSH = 3
	Z_FINISH = 4
	_valid_flush_modes = (Z_FINISH,)

	def adler32(s, value=1):
	if value != 1:
	raise ValueError, "adler32 only support start value of 1"
	checksum = Adler32()
	checksum.update(String.getBytes(s, 'iso-8859-1'))
	return Long(checksum.getValue()).intValue()

	def crc32(string, value=0):
	return binascii.crc32(string, value)


	def compress(string, level=6):
	if level < Z_BEST_SPEED or level > Z_BEST_COMPRESSION:
	raise error, "Bad compression level"
	deflater = Deflater(level, 0)
	string = _to_input(string)
	deflater.setInput(string, 0, len(string))
	deflater.finish()
	return _get_deflate_data(deflater)

	def decompress(string, wbits=0, bufsize=16384):
	inflater = Inflater(wbits < 0)
	inflater.setInput(_to_input(string))

	return _get_inflate_data(inflater)

	class compressobj:
	# all jython uses wbits for is deciding whether to skip the header if it's negative
	def __init__(self, level=6, method=DEFLATED, wbits=MAX_WBITS,
	memLevel=0, strategy=0):
	if abs(wbits) > MAX_WBITS or abs(wbits) < 8:
	raise ValueError, "Invalid initialization option"
	self.deflater = Deflater(level, wbits < 0)
	self.deflater.setStrategy(strategy)
	if wbits < 0:
	_get_deflate_data(self.deflater)
	self._ended = False

	def compress(self, string):
	if self._ended:
	raise error("compressobj may not be used after flush(Z_FINISH)")
	string = _to_input(string)
	self.deflater.setInput(string, 0, len(string))
	return _get_deflate_data(self.deflater)

	def flush(self, mode=Z_FINISH):
	if self._ended:
	raise error("compressobj may not be used after flush(Z_FINISH)")
	if mode not in _valid_flush_modes:
	raise ValueError, "Invalid flush option"
	self.deflater.finish()
	last = _get_deflate_data(self.deflater)
	if mode == Z_FINISH:
	self.deflater.end()
	self._ended = True
	return last

	class decompressobj:
	# all jython uses wbits for is deciding whether to skip the header if it's negative
	def __init__(self, wbits=MAX_WBITS):
	if abs(wbits) > MAX_WBITS or abs(wbits) < 8:
	raise ValueError, "Invalid initialization option"
	self.inflater = Inflater(wbits < 0)
	self.unused_data = ""
	self._ended = False

	def decompress(self, string, max_length=0):
	if self._ended:
	raise error("decompressobj may not be used after flush()")

	# unused_data is always "" until inflation is finished; then it is
	# the unused bytes of the input;
	# unconsumed_tail is whatever input was not used because max_length
	# was exceeded before inflation finished.
	# Thus, at most one of {unused_data, unconsumed_tail} may be non-empty.
	self.unused_data = ""
	self.unconsumed_tail = ""

	if max_length < 0:
	raise ValueError("max_length must be a positive integer")

	string = _to_input(string)
	self.inflater.setInput(string)
	inflated = _get_inflate_data(self.inflater, max_length)

	r = self.inflater.getRemaining()
	if r:
	if max_length:
	self.unconsumed_tail = string[-r:]
	else:
	self.unused_data = string[-r:]

	return inflated

	def flush(self, length=None):
	if self._ended:
	raise error("decompressobj may not be used after flush()")
	if length is None:
	length = 0
	elif length <= 0:
	raise ValueError('length must be greater than zero')
	last = _get_inflate_data(self.inflater, length)
	self.inflater.end()
	return last

	def _to_input(string):
	return string.tostring() if isinstance(string, array.array) else string

	def _get_deflate_data(deflater):
	buf = jarray.zeros(1024, 'b')
	s = StringIO()
	while not deflater.finished():
	l = deflater.deflate(buf)

	if l == 0:
	break
	s.write(String(buf, 0, 0, l))
	s.seek(0)
	return s.read()

	def _get_inflate_data(inflater, max_length=0):
	buf = jarray.zeros(1024, 'b')
	s = StringIO()
	total = 0
	while not inflater.finished():
	try:
	if max_length:
	l = inflater.inflate(buf, 0, min(1024, max_length - total))
	else:
	l = inflater.inflate(buf)
	except DataFormatException, e:
	raise error(str(e))

	if l == 0:
	break

	total += l
	s.write(String(buf, 0, 0, l))
	if max_length and total == max_length:
	break
	s.seek(0)
	return s.read()