from cStringIO import StringIO from lib.hachoir_core.endian import BIG_ENDIAN from lib.hachoir_core.bits import long2raw from lib.hachoir_core.stream import StreamError from errno import EBADF MAX_READ_NBYTES = 2 ** 16 class OutputStreamError(StreamError): pass class OutputStream(object): def __init__(self, output, filename=None): self._output = output self._filename = filename self._bit_pos = 0 self._byte = 0 def _getFilename(self): return self._filename filename = property(_getFilename) def writeBit(self, state, endian): if self._bit_pos == 7: self._bit_pos = 0 if state: if endian is BIG_ENDIAN: self._byte |= 1 else: self._byte |= 128 self._output.write(chr(self._byte)) self._byte = 0 else: if state: if endian is BIG_ENDIAN: self._byte |= (1 << self._bit_pos) else: self._byte |= (1 << (7-self._bit_pos)) self._bit_pos += 1 def writeBits(self, count, value, endian): assert 0 <= value < 2**count # Feed bits to align to byte address if self._bit_pos != 0: n = 8 - self._bit_pos if n <= count: count -= n if endian is BIG_ENDIAN: self._byte |= (value >> count) value &= ((1 << count) - 1) else: self._byte |= (value & ((1 << n)-1)) << self._bit_pos value >>= n self._output.write(chr(self._byte)) self._bit_pos = 0 self._byte = 0 else: if endian is BIG_ENDIAN: self._byte |= (value << (8-self._bit_pos-count)) else: self._byte |= (value << self._bit_pos) self._bit_pos += count return # Write byte per byte while 8 <= count: count -= 8 if endian is BIG_ENDIAN: byte = (value >> count) value &= ((1 << count) - 1) else: byte = (value & 0xFF) value >>= 8 self._output.write(chr(byte)) # Keep last bits assert 0 <= count < 8 self._bit_pos = count if 0 < count: assert 0 <= value < 2**count if endian is BIG_ENDIAN: self._byte = value << (8-count) else: self._byte = value else: assert value == 0 self._byte = 0 def writeInteger(self, value, signed, size_byte, endian): if signed: value += 1 << (size_byte*8 - 1) raw = long2raw(value, endian, size_byte) self.writeBytes(raw) def copyBitsFrom(self, input, address, nb_bits, endian): if (nb_bits % 8) == 0: self.copyBytesFrom(input, address, nb_bits/8) else: # Arbitrary limit (because we should use a buffer, like copyBytesFrom(), # but with endianess problem assert nb_bits <= 128 data = input.readBits(address, nb_bits, endian) self.writeBits(nb_bits, data, endian) def copyBytesFrom(self, input, address, nb_bytes): if (address % 8): raise OutputStreamError("Unable to copy bytes with address with bit granularity") buffer_size = 1 << 12 # 8192 (8 KB) while 0 < nb_bytes: # Compute buffer size if nb_bytes < buffer_size: buffer_size = nb_bytes # Read data = input.readBytes(address, buffer_size) # Write self.writeBytes(data) # Move address address += buffer_size*8 nb_bytes -= buffer_size def writeBytes(self, bytes): if self._bit_pos != 0: raise NotImplementedError() self._output.write(bytes) def readBytes(self, address, nbytes): """ Read bytes from the stream at specified address (in bits). Address have to be a multiple of 8. nbytes have to in 1..MAX_READ_NBYTES (64 KB). This method is only supported for StringOuputStream (not on FileOutputStream). Return read bytes as byte string. """ assert (address % 8) == 0 assert (1 <= nbytes <= MAX_READ_NBYTES) self._output.flush() oldpos = self._output.tell() try: self._output.seek(0) try: return self._output.read(nbytes) except IOError, err: if err[0] == EBADF: raise OutputStreamError("Stream doesn't support read() operation") finally: self._output.seek(oldpos) def StringOutputStream(): """ Create an output stream into a string. """ data = StringIO() return OutputStream(data) def FileOutputStream(filename, real_filename=None): """ Create an output stream into file with given name. Filename have to be unicode, whereas (optional) real_filename can be str. """ assert isinstance(filename, unicode) if not real_filename: real_filename = filename output = open(real_filename, 'wb') return OutputStream(output, filename=filename)