import io from os import PathLike from _zstd import ZstdCompressor, ZstdDecompressor, ZSTD_DStreamOutSize from compression._common import _streams __all__ = ('ZstdFile', 'open') _MODE_CLOSED = 0 _MODE_READ = 1 _MODE_WRITE = 2 def _nbytes(dat, /): if isinstance(dat, (bytes, bytearray)): return len(dat) with memoryview(dat) as mv: return mv.nbytes class ZstdFile(_streams.BaseStream): """A file-like object providing transparent Zstandard (de)compression. A ZstdFile can act as a wrapper for an existing file object, or refer directly to a named file on disk. ZstdFile provides a *binary* file interface. Data is read and returned as bytes, and may only be written to objects that support the Buffer Protocol. """ FLUSH_BLOCK = ZstdCompressor.FLUSH_BLOCK FLUSH_FRAME = ZstdCompressor.FLUSH_FRAME def __init__(self, file, /, mode='r', *, level=None, options=None, zstd_dict=None): """Open a Zstandard compressed file in binary mode. *file* can be either an file-like object, or a file name to open. *mode* can be 'r' for reading (default), 'w' for (over)writing, 'x' for creating exclusively, or 'a' for appending. These can equivalently be given as 'rb', 'wb', 'xb' and 'ab' respectively. *level* is an optional int specifying the compression level to use, or COMPRESSION_LEVEL_DEFAULT if not given. *options* is an optional dict for advanced compression parameters. See CompressionParameter and DecompressionParameter for the possible options. *zstd_dict* is an optional ZstdDict object, a pre-trained Zstandard dictionary. See train_dict() to train ZstdDict on sample data. """ self._fp = None self._close_fp = False self._mode = _MODE_CLOSED self._buffer = None if not isinstance(mode, str): raise ValueError('mode must be a str') if options is not None and not isinstance(options, dict): raise TypeError('options must be a dict or None') mode = mode.removesuffix('b') # handle rb, wb, xb, ab if mode == 'r': if level is not None: raise TypeError('level is illegal in read mode') self._mode = _MODE_READ elif mode in {'w', 'a', 'x'}: if level is not None and not isinstance(level, int): raise TypeError('level must be int or None') self._mode = _MODE_WRITE self._compressor = ZstdCompressor(level=level, options=options, zstd_dict=zstd_dict) self._pos = 0 else: raise ValueError(f'Invalid mode: {mode!r}') if isinstance(file, (str, bytes, PathLike)): self._fp = io.open(file, f'{mode}b') self._close_fp = True elif ((mode == 'r' and hasattr(file, 'read')) or (mode != 'r' and hasattr(file, 'write'))): self._fp = file else: raise TypeError('file must be a file-like object ' 'or a str, bytes, or PathLike object') if self._mode == _MODE_READ: raw = _streams.DecompressReader( self._fp, ZstdDecompressor, zstd_dict=zstd_dict, options=options, ) self._buffer = io.BufferedReader(raw) def close(self): """Flush and close the file. May be called multiple times. Once the file has been closed, any other operation on it will raise ValueError. """ if self._fp is None: return try: if self._mode == _MODE_READ: if getattr(self, '_buffer', None): self._buffer.close() self._buffer = None elif self._mode == _MODE_WRITE: self.flush(self.FLUSH_FRAME) self._compressor = None finally: self._mode = _MODE_CLOSED try: if self._close_fp: self._fp.close() finally: self._fp = None self._close_fp = False def write(self, data, /): """Write a bytes-like object *data* to the file. Returns the number of uncompressed bytes written, which is always the length of data in bytes. Note that due to buffering, the file on disk may not reflect the data written until .flush() or .close() is called. """ self._check_can_write() length = _nbytes(data) compressed = self._compressor.compress(data) self._fp.write(compressed) self._pos += length return length def flush(self, mode=FLUSH_BLOCK): """Flush remaining data to the underlying stream. The mode argument can be FLUSH_BLOCK or FLUSH_FRAME. Abuse of this method will reduce compression ratio, use it only when necessary. If the program is interrupted afterwards, all data can be recovered. To ensure saving to disk, also need to use os.fsync(fd). This method does nothing in reading mode. """ if self._mode == _MODE_READ: return self._check_not_closed() if mode not in {self.FLUSH_BLOCK, self.FLUSH_FRAME}: raise ValueError('Invalid mode argument, expected either ' 'ZstdFile.FLUSH_FRAME or ' 'ZstdFile.FLUSH_BLOCK') if self._compressor.last_mode == mode: return # Flush zstd block/frame, and write. data = self._compressor.flush(mode) self._fp.write(data) if hasattr(self._fp, 'flush'): self._fp.flush() def read(self, size=-1): """Read up to size uncompressed bytes from the file. If size is negative or omitted, read until EOF is reached. Returns b'' if the file is already at EOF. """ if size is None: size = -1 self._check_can_read() return self._buffer.read(size) def read1(self, size=-1): """Read up to size uncompressed bytes, while trying to avoid making multiple reads from the underlying stream. Reads up to a buffer's worth of data if size is negative. Returns b'' if the file is at EOF. """ self._check_can_read() if size < 0: # Note this should *not* be io.DEFAULT_BUFFER_SIZE. # ZSTD_DStreamOutSize is the minimum amount to read guaranteeing # a full block is read. size = ZSTD_DStreamOutSize return self._buffer.read1(size) def readinto(self, b): """Read bytes into b. Returns the number of bytes read (0 for EOF). """ self._check_can_read() return self._buffer.readinto(b) def readinto1(self, b): """Read bytes into b, while trying to avoid making multiple reads from the underlying stream. Returns the number of bytes read (0 for EOF). """ self._check_can_read() return self._buffer.readinto1(b) def readline(self, size=-1): """Read a line of uncompressed bytes from the file. The terminating newline (if present) is retained. If size is non-negative, no more than size bytes will be read (in which case the line may be incomplete). Returns b'' if already at EOF. """ self._check_can_read() return self._buffer.readline(size) def seek(self, offset, whence=io.SEEK_SET): """Change the file position. The new position is specified by offset, relative to the position indicated by whence. Possible values for whence are: 0: start of stream (default): offset must not be negative 1: current stream position 2: end of stream; offset must not be positive Returns the new file position. Note that seeking is emulated, so depending on the arguments, this operation may be extremely slow. """ self._check_can_read() # BufferedReader.seek() checks seekable return self._buffer.seek(offset, whence) def peek(self, size=-1): """Return buffered data without advancing the file position. Always returns at least one byte of data, unless at EOF. The exact number of bytes returned is unspecified. """ # Relies on the undocumented fact that BufferedReader.peek() always # returns at least one byte (except at EOF) self._check_can_read() return self._buffer.peek(size) def __next__(self): if ret := self._buffer.readline(): return ret raise StopIteration def tell(self): """Return the current file position.""" self._check_not_closed() if self._mode == _MODE_READ: return self._buffer.tell() elif self._mode == _MODE_WRITE: return self._pos def fileno(self): """Return the file descriptor for the underlying file.""" self._check_not_closed() return self._fp.fileno() @property def name(self): self._check_not_closed() return self._fp.name @property def mode(self): return 'wb' if self._mode == _MODE_WRITE else 'rb' @property def closed(self): """True if this file is closed.""" return self._mode == _MODE_CLOSED def seekable(self): """Return whether the file supports seeking.""" return self.readable() and self._buffer.seekable() def readable(self): """Return whether the file was opened for reading.""" self._check_not_closed() return self._mode == _MODE_READ def writable(self): """Return whether the file was opened for writing.""" self._check_not_closed() return self._mode == _MODE_WRITE def open(file, /, mode='rb', *, level=None, options=None, zstd_dict=None, encoding=None, errors=None, newline=None): """Open a Zstandard compressed file in binary or text mode. file can be either a file name (given as a str, bytes, or PathLike object), in which case the named file is opened, or it can be an existing file object to read from or write to. The mode parameter can be 'r', 'rb' (default), 'w', 'wb', 'x', 'xb', 'a', 'ab' for binary mode, or 'rt', 'wt', 'xt', 'at' for text mode. The level, options, and zstd_dict parameters specify the settings the same as ZstdFile. When using read mode (decompression), the options parameter is a dict representing advanced decompression options. The level parameter is not supported in this case. When using write mode (compression), only one of level, an int representing the compression level, or options, a dict representing advanced compression options, may be passed. In both modes, zstd_dict is a ZstdDict instance containing a trained Zstandard dictionary. For binary mode, this function is equivalent to the ZstdFile constructor: ZstdFile(filename, mode, ...). In this case, the encoding, errors and newline parameters must not be provided. For text mode, an ZstdFile object is created, and wrapped in an io.TextIOWrapper instance with the specified encoding, error handling behavior, and line ending(s). """ text_mode = 't' in mode mode = mode.replace('t', '') if text_mode: if 'b' in mode: raise ValueError(f'Invalid mode: {mode!r}') else: if encoding is not None: raise ValueError('Argument "encoding" not supported in binary mode') if errors is not None: raise ValueError('Argument "errors" not supported in binary mode') if newline is not None: raise ValueError('Argument "newline" not supported in binary mode') binary_file = ZstdFile(file, mode, level=level, options=options, zstd_dict=zstd_dict) if text_mode: return io.TextIOWrapper(binary_file, encoding, errors, newline) else: return binary_file