Discipline Zerozip -

def _decompress_non_zero_block(self, compressed_block): decompressed_block = bytearray() i = 0 while i < len(compressed_block): count = struct.unpack_from('B', compressed_block, offset=i)[0] i += 1 byte = compressed_block[i] i += 1 decompressed_block.extend(bytes([byte]) * count) return bytes(decompressed_block) This implementation provides a basic example of the Discipline Zerozip algorithm. You may need to modify it to suit your specific use case. Discipline Zerozip offers a simple, yet efficient approach to lossless data compression. By leveraging zero-filled data blocks and RLE compression, it achieves competitive compression ratios with existing algorithms. The provided implementation demonstrates the algorithm's feasibility and can be used as a starting point for further development and optimization.

def _is_zero_filled(self, block): return all(byte == 0 for byte in block) discipline zerozip

# Preprocess the data into fixed-size blocks for i in range(0, len(data), self.block_size): block = data[i:i + self.block_size] By leveraging zero-filled data blocks and RLE compression,

assert data == decompressed_data The Discipline Zerozip algorithm can be implemented in a variety of programming languages. Here is a sample implementation in Python: Here is a sample implementation in Python: