#
# The Python Imaging Library.
# $Id$
#
# base class for image file handlers
#
# history:
# 1995-09-09 fl Created
# 1996-03-11 fl Fixed load mechanism.
# 1996-04-15 fl Added pcx/xbm decoders.
# 1996-04-30 fl Added encoders.
# 1996-12-14 fl Added load helpers
# 1997-01-11 fl Use encode_to_file where possible
# 1997-08-27 fl Flush output in _save
# 1998-03-05 fl Use memory mapping for some modes
# 1999-02-04 fl Use memory mapping also for "I;16" and "I;16B"
# 1999-05-31 fl Added image parser
# 2000-10-12 fl Set readonly flag on memory-mapped images
# 2002-03-20 fl Use better messages for common decoder errors
# 2003-04-21 fl Fall back on mmap/map_buffer if map is not available
# 2003-10-30 fl Added StubImageFile class
# 2004-02-25 fl Made incremental parser more robust
#
# Copyright (c) 1997-2004 by Secret Labs AB
# Copyright (c) 1995-2004 by Fredrik Lundh
#
# See the README file for information on usage and redistribution.
#
from __future__ import annotations
import abc
import io
import itertools
import struct
import sys
from typing import IO, Any, NamedTuple
from . import Image
from ._deprecate import deprecate
from ._util import is_path
MAXBLOCK = 65536
SAFEBLOCK = 1024 * 1024
LOAD_TRUNCATED_IMAGES = False
"""Whether or not to load truncated image files. User code may change this."""
ERRORS = {
-1: "image buffer overrun error",
-2: "decoding error",
-3: "unknown error",
-8: "bad configuration",
-9: "out of memory error",
}
"""
Dict of known error codes returned from :meth:`.PyDecoder.decode`,
:meth:`.PyEncoder.encode` :meth:`.PyEncoder.encode_to_pyfd` and
:meth:`.PyEncoder.encode_to_file`.
"""
#
# --------------------------------------------------------------------
# Helpers
def _get_oserror(error: int, *, encoder: bool) -> OSError:
try:
msg = Image.core.getcodecstatus(error)
except AttributeError:
msg = ERRORS.get(error)
if not msg:
msg = f"{'encoder' if encoder else 'decoder'} error {error}"
msg += f" when {'writing' if encoder else 'reading'} image file"
return OSError(msg)
def raise_oserror(error: int) -> OSError:
deprecate(
"raise_oserror",
12,
action="It is only useful for translating error codes returned by a codec's "
"decode() method, which ImageFile already does automatically.",
)
raise _get_oserror(error, encoder=False)
def _tilesort(t):
# sort on offset
return t[2]
class _Tile(NamedTuple):
codec_name: str
extents: tuple[int, int, int, int]
offset: int
args: tuple[Any, ...] | str | None
#
# --------------------------------------------------------------------
# ImageFile base class
class ImageFile(Image.Image):
"""Base class for image file format handlers."""
def __init__(self, fp=None, filename=None):
super().__init__()
self._min_frame = 0
self.custom_mimetype = None
self.tile = None
""" A list of tile descriptors, or ``None`` """
self.readonly = 1 # until we know better
self.decoderconfig = ()
self.decodermaxblock = MAXBLOCK
if is_path(fp):
# filename
self.fp = open(fp, "rb")
self.filename = fp
self._exclusive_fp = True
else:
# stream
self.fp = fp
self.filename = filename
# can be overridden
self._exclusive_fp = None
try:
try:
self._open()
except (
IndexError, # end of data
TypeError, # end of data (ord)
KeyError, # unsupported mode
EOFError, # got header but not the first frame
struct.error,
) as v:
raise SyntaxError(v) from v
if not self.mode or self.size[0] <= 0 or self.size[1] <= 0:
msg = "not identified by this driver"
raise SyntaxError(msg)
except BaseException:
# close the file only if we have opened it this constructor
if self._exclusive_fp:
self.fp.close()
raise
def get_format_mimetype(self) -> str | None:
if self.custom_mimetype:
return self.custom_mimetype
if self.format is not None:
return Image.MIME.get(self.format.upper())
return None
def __setstate__(self, state):
self.tile = []
super().__setstate__(state)
def verify(self) -> None:
"""Check file integrity"""
# raise exception if something's wrong. must be called
# directly after open, and closes file when finished.
if self._exclusive_fp:
self.fp.close()
self.fp = None
def load(self):
"""Load image data based on tile list"""
if self.tile is None:
msg = "cannot load this image"
raise OSError(msg)
pixel = Image.Image.load(self)
if not self.tile:
return pixel
self.map = None
use_mmap = self.filename and len(self.tile) == 1
# As of pypy 2.1.0, memory mapping was failing here.
use_mmap = use_mmap and not hasattr(sys, "pypy_version_info")
readonly = 0
# look for read/seek overrides
try:
read = self.load_read
# don't use mmap if there are custom read/seek functions
use_mmap = False
except AttributeError:
read = self.fp.read
try:
seek = self.load_seek
use_mmap = False
except AttributeError:
seek = self.fp.seek
if use_mmap:
# try memory mapping
decoder_name, extents, offset, args = self.tile[0]
if isinstance(args, str):
args = (args, 0, 1)
if (
decoder_name == "raw"
and len(args) >= 3
and args[0] == self.mode
and args[0] in Image._MAPMODES
):
try:
# use mmap, if possible
import mmap
with open(self.filename) as fp:
self.map = mmap.mmap(fp.fileno(), 0, access=mmap.ACCESS_READ)
if offset + self.size[1] * args[1] > self.map.size():
msg = "buffer is not large enough"
raise OSError(msg)
self.im = Image.core.map_buffer(
self.map, self.size, decoder_name, offset, args
)
readonly = 1
# After trashing self.im,
# we might need to reload the palette data.
if self.palette:
self.palette.dirty = 1
except (AttributeError, OSError, ImportError):
self.map = None
self.load_prepare()
err_code = -3 # initialize to unknown error
if not self.map:
# sort tiles in file order
self.tile.sort(key=_tilesort)
try:
# FIXME: This is a hack to handle TIFF's JpegTables tag.
prefix = self.tile_prefix
except AttributeError:
prefix = b""
# Remove consecutive duplicates that only differ by their offset
self.tile = [
list(tiles)[-1]
for _, tiles in itertools.groupby(
self.tile, lambda tile: (tile[0], tile[1], tile[3])
)
]
for decoder_name, extents, offset, args in self.tile:
seek(offset)
decoder = Image._getdecoder(
self.mode, decoder_name, args, self.decoderconfig
)
try:
decoder.setimage(self.im, extents)
if decoder.pulls_fd:
decoder.setfd(self.fp)
err_code = decoder.decode(b"")[1]
else:
b = prefix
while True:
try:
s = read(self.decodermaxblock)
except (IndexError, struct.error) as e:
# truncated png/gif
if LOAD_TRUNCATED_IMAGES:
break
else:
msg = "image file is truncated"
raise OSError(msg) from e
if not s: # truncated jpeg
if LOAD_TRUNCATED_IMAGES:
break
else:
msg = (
"image file is truncated "
f"({len(b)} bytes not processed)"
)
raise OSError(msg)
b = b + s
n, err_code = decoder.decode(b)
if n < 0:
break
b = b[n:]
finally:
# Need to cleanup here to prevent leaks
decoder.cleanup()
self.tile = []
self.readonly = readonly
self.load_end()
if self._exclusive_fp and self._close_exclusive_fp_after_loading:
self.fp.close()
self.fp = None
if not self.map and not LOAD_TRUNCATED_IMAGES and err_code < 0:
# still raised if decoder fails to return anything
raise _get_oserror(err_code, encoder=False)
return Image.Image.load(self)
def load_prepare(self) -> None:
# create image memory if necessary
if not self.im or self.im.mode != self.mode or self.im.size != self.size:
self.im = Image.core.new(self.mode, self.size)
# create palette (optional)
if self.mode == "P":
Image.Image.load(self)
def load_end(self) -> None:
# may be overridden
pass
# may be defined for contained formats
# def load_seek(self, pos: int) -> None:
# pass
# may be defined for blocked formats (e.g. PNG)
# def load_read(self, read_bytes: int) -> bytes:
# pass
def _seek_check(self, frame):
if (
frame < self._min_frame
# Only check upper limit on frames if additional seek operations
# are not required to do so
or (
not (hasattr(self, "_n_frames") and self._n_frames is None)
and frame >= self.n_frames + self._min_frame
)
):
msg = "attempt to seek outside sequence"
raise EOFError(msg)
return self.tell() != frame
class StubHandler:
def open(self, im: StubImageFile) -> None:
pass
@abc.abstractmethod
def load(self, im: StubImageFile) -> Image.Image:
pass
class StubImageFile(ImageFile):
"""
Base class for stub image loaders.
A stub loader is an image loader that can identify files of a
certain format, but relies on external code to load the file.
"""
def _open(self) -> None:
msg = "StubImageFile subclass must implement _open"
raise NotImplementedError(msg)
def load(self):
loader = self._load()
if loader is None:
msg = f"cannot find loader for this {self.format} file"
raise OSError(msg)
image = loader.load(self)
assert image is not None
# become the other object (!)
self.__class__ = image.__class__
self.__dict__ = image.__dict__
return image.load()
def _load(self) -> StubHandler | None:
"""(Hook) Find actual image loader."""
msg = "StubImageFile subclass must implement _load"
raise NotImplementedError(msg)
class Parser:
"""
Incremental image parser. This class implements the standard
feed/close consumer interface.
"""
incremental = None
image: Image.Image | None = None
data = None
decoder = None
offset = 0
finished = 0
def reset(self) -> None:
"""
(Consumer) Reset the parser. Note that you can only call this
method immediately after you've created a parser; parser
instances cannot be reused.
"""
assert self.data is None, "cannot reuse parsers"
def feed(self, data):
"""
(Consumer) Feed data to the parser.
:param data: A string buffer.
:exception OSError: If the parser failed to parse the image file.
"""
# collect data
if self.finished:
return
if self.data is None:
self.data = data
else:
self.data = self.data + data
# parse what we have
if self.decoder:
if self.offset > 0:
# skip header
skip = min(len(self.data), self.offset)
self.data = self.data[skip:]
self.offset = self.offset - skip
if self.offset > 0 or not self.data:
return
n, e = self.decoder.decode(self.data)
if n < 0:
# end of stream
self.data = None
self.finished = 1
if e < 0:
# decoding error
self.image = None
raise _get_oserror(e, encoder=False)
else:
# end of image
return
self.data = self.data[n:]
elif self.image:
# if we end up here with no decoder, this file cannot
# be incrementally parsed. wait until we've gotten all
# available data
pass
else:
# attempt to open this file
try:
with io.BytesIO(self.data) as fp:
im = Image.open(fp)
except OSError:
pass # not enough data
else:
flag = hasattr(im, "load_seek") or hasattr(im, "load_read")
if flag or len(im.tile) != 1:
# custom load code, or multiple tiles
self.decode = None
else:
# initialize decoder
im.load_prepare()
d, e, o, a = im.tile[0]
im.tile = []
self.decoder = Image._getdecoder(im.mode, d, a, im.decoderconfig)
self.decoder.setimage(im.im, e)
# calculate decoder offset
self.offset = o
if self.offset <= len(self.data):
self.data = self.data[self.offset :]
self.offset = 0
self.image = im
def __enter__(self):
return self
def __exit__(self, *args: object) -> None:
self.close()
def close(self):
"""
(Consumer) Close the stream.
:returns: An image object.
:exception OSError: If the parser failed to parse the image file either
because it cannot be identified or cannot be
decoded.
"""
# finish decoding
if self.decoder:
# get rid of what's left in the buffers
self.feed(b"")
self.data = self.decoder = None
if not self.finished:
msg = "image was incomplete"
raise OSError(msg)
if not self.image:
msg = "cannot parse this image"
raise OSError(msg)
if self.data:
# incremental parsing not possible; reopen the file
# not that we have all data
with io.BytesIO(self.data) as fp:
try:
self.image = Image.open(fp)
finally:
self.image.load()
return self.image
# --------------------------------------------------------------------
def _save(im, fp, tile, bufsize=0) -> None:
"""Helper to save image based on tile list
:param im: Image object.
:param fp: File object.
:param tile: Tile list.
:param bufsize: Optional buffer size
"""
im.load()
if not hasattr(im, "encoderconfig"):
im.encoderconfig = ()
tile.sort(key=_tilesort)
# FIXME: make MAXBLOCK a configuration parameter
# It would be great if we could have the encoder specify what it needs
# But, it would need at least the image size in most cases. RawEncode is
# a tricky case.
bufsize = max(MAXBLOCK, bufsize, im.size[0] * 4) # see RawEncode.c
try:
fh = fp.fileno()
fp.flush()
_encode_tile(im, fp, tile, bufsize, fh)
except (AttributeError, io.UnsupportedOperation) as exc:
_encode_tile(im, fp, tile, bufsize, None, exc)
if hasattr(fp, "flush"):
fp.flush()
def _encode_tile(im, fp, tile: list[_Tile], bufsize, fh, exc=None):
for encoder_name, extents, offset, args in tile:
if offset > 0:
fp.seek(offset)
encoder = Image._getencoder(im.mode, encoder_name, args, im.encoderconfig)
try:
encoder.setimage(im.im, extents)
if encoder.pushes_fd:
encoder.setfd(fp)
errcode = encoder.encode_to_pyfd()[1]
else:
if exc:
# compress to Python file-compatible object
while True:
errcode, data = encoder.encode(bufsize)[1:]
fp.write(data)
if errcode:
break
else:
# slight speedup: compress to real file object
errcode = encoder.encode_to_file(fh, bufsize)
if errcode < 0:
raise _get_oserror(errcode, encoder=True) from exc
finally:
encoder.cleanup()
def _safe_read(fp, size):
"""
Reads large blocks in a safe way. Unlike fp.read(n), this function
doesn't trust the user. If the requested size is larger than
SAFEBLOCK, the file is read block by block.
:param fp: File handle. Must implement a read method.
:param size: Number of bytes to read.
:returns: A string containing size bytes of data.
Raises an OSError if the file is truncated and the read cannot be completed
"""
if size <= 0:
return b""
if size <= SAFEBLOCK:
data = fp.read(size)
if len(data) < size:
msg = "Truncated File Read"
raise OSError(msg)
return data
data = []
remaining_size = size
while remaining_size > 0:
block = fp.read(min(remaining_size, SAFEBLOCK))
if not block:
break
data.append(block)
remaining_size -= len(block)
if sum(len(d) for d in data) < size:
msg = "Truncated File Read"
raise OSError(msg)
return b"".join(data)
class PyCodecState:
def __init__(self) -> None:
self.xsize = 0
self.ysize = 0
self.xoff = 0
self.yoff = 0
def extents(self) -> tuple[int, int, int, int]:
return self.xoff, self.yoff, self.xoff + self.xsize, self.yoff + self.ysize
class PyCodec:
fd: IO[bytes] | None
def __init__(self, mode, *args):
self.im = None
self.state = PyCodecState()
self.fd = None
self.mode = mode
self.init(args)
def init(self, args):
"""
Override to perform codec specific initialization
:param args: Array of args items from the tile entry
:returns: None
"""
self.args = args
def cleanup(self) -> None:
"""
Override to perform codec specific cleanup
:returns: None
"""
pass
def setfd(self, fd):
"""
Called from ImageFile to set the Python file-like object
:param fd: A Python file-like object
:returns: None
"""
self.fd = fd
def setimage(self, im, extents: tuple[int, int, int, int] | None = None) -> None:
"""
Called from ImageFile to set the core output image for the codec
:param im: A core image object
:param extents: a 4 tuple of (x0, y0, x1, y1) defining the rectangle
for this tile
:returns: None
"""
# following c code
self.im = im
if extents:
(x0, y0, x1, y1) = extents
else:
(x0, y0, x1, y1) = (0, 0, 0, 0)
if x0 == 0 and x1 == 0:
self.state.xsize, self.state.ysize = self.im.size
else:
self.state.xoff = x0
self.state.yoff = y0
self.state.xsize = x1 - x0
self.state.ysize = y1 - y0
if self.state.xsize <= 0 or self.state.ysize <= 0:
msg = "Size cannot be negative"
raise ValueError(msg)
if (
self.state.xsize + self.state.xoff > self.im.size[0]
or self.state.ysize + self.state.yoff > self.im.size[1]
):
msg = "Tile cannot extend outside image"
raise ValueError(msg)
class PyDecoder(PyCodec):
"""
Python implementation of a format decoder. Override this class and
add the decoding logic in the :meth:`decode` method.
See :ref:`Writing Your Own File Codec in Python`
"""
_pulls_fd = False
@property
def pulls_fd(self) -> bool:
return self._pulls_fd
def decode(self, buffer: bytes) -> tuple[int, int]:
"""
Override to perform the decoding process.
:param buffer: A bytes object with the data to be decoded.
:returns: A tuple of ``(bytes consumed, errcode)``.
If finished with decoding return -1 for the bytes consumed.
Err codes are from :data:`.ImageFile.ERRORS`.
"""
msg = "unavailable in base decoder"
raise NotImplementedError(msg)
def set_as_raw(self, data: bytes, rawmode=None) -> None:
"""
Convenience method to set the internal image from a stream of raw data
:param data: Bytes to be set
:param rawmode: The rawmode to be used for the decoder.
If not specified, it will default to the mode of the image
:returns: None
"""
if not rawmode:
rawmode = self.mode
d = Image._getdecoder(self.mode, "raw", rawmode)
assert self.im is not None
d.setimage(self.im, self.state.extents())
s = d.decode(data)
if s[0] >= 0:
msg = "not enough image data"
raise ValueError(msg)
if s[1] != 0:
msg = "cannot decode image data"
raise ValueError(msg)
class PyEncoder(PyCodec):
"""
Python implementation of a format encoder. Override this class and
add the decoding logic in the :meth:`encode` method.
See :ref:`Writing Your Own File Codec in Python`
"""
_pushes_fd = False
@property
def pushes_fd(self) -> bool:
return self._pushes_fd
def encode(self, bufsize: int) -> tuple[int, int, bytes]:
"""
Override to perform the encoding process.
:param bufsize: Buffer size.
:returns: A tuple of ``(bytes encoded, errcode, bytes)``.
If finished with encoding return 1 for the error code.
Err codes are from :data:`.ImageFile.ERRORS`.
"""
msg = "unavailable in base encoder"
raise NotImplementedError(msg)
def encode_to_pyfd(self) -> tuple[int, int]:
"""
If ``pushes_fd`` is ``True``, then this method will be used,
and ``encode()`` will only be called once.
:returns: A tuple of ``(bytes consumed, errcode)``.
Err codes are from :data:`.ImageFile.ERRORS`.
"""
if not self.pushes_fd:
return 0, -8 # bad configuration
bytes_consumed, errcode, data = self.encode(0)
if data:
assert self.fd is not None
self.fd.write(data)
return bytes_consumed, errcode
def encode_to_file(self, fh, bufsize):
"""
:param fh: File handle.
:param bufsize: Buffer size.
:returns: If finished successfully, return 0.
Otherwise, return an error code. Err codes are from
:data:`.ImageFile.ERRORS`.
"""
errcode = 0
while errcode == 0:
status, errcode, buf = self.encode(bufsize)
if status > 0:
fh.write(buf[status:])
return errcode