fr/fr_env/lib/python3.8/site-packages/imageio/plugins/pillow.py

869 lines
32 KiB
Python

# -*- coding: utf-8 -*-
# imageio is distributed under the terms of the (new) BSD License.
""" Plugin that wraps the the Pillow library.
"""
import logging
import threading
import numpy as np
from .. import formats
from ..core import Format, image_as_uint
# Get info about pillow formats without having to import PIL
from .pillow_info import pillow_formats, pillow_docs
logger = logging.getLogger(__name__)
# todo: Pillow ImageGrab module supports grabbing the screen on Win and OSX.
GENERIC_DOCS = """
Parameters for reading
----------------------
pilmode : str
From the Pillow documentation:
* 'L' (8-bit pixels, grayscale)
* 'P' (8-bit pixels, mapped to any other mode using a color palette)
* 'RGB' (3x8-bit pixels, true color)
* 'RGBA' (4x8-bit pixels, true color with transparency mask)
* 'CMYK' (4x8-bit pixels, color separation)
* 'YCbCr' (3x8-bit pixels, color video format)
* 'I' (32-bit signed integer pixels)
* 'F' (32-bit floating point pixels)
PIL also provides limited support for a few special modes, including
'LA' ('L' with alpha), 'RGBX' (true color with padding) and 'RGBa'
(true color with premultiplied alpha).
When translating a color image to grayscale (mode 'L', 'I' or 'F'),
the library uses the ITU-R 601-2 luma transform::
L = R * 299/1000 + G * 587/1000 + B * 114/1000
as_gray : bool
If True, the image is converted using mode 'F'. When `mode` is
not None and `as_gray` is True, the image is first converted
according to `mode`, and the result is then "flattened" using
mode 'F'.
"""
class PillowFormat(Format):
"""
Base format class for Pillow formats.
"""
_pillow_imported = False
_Image = None
_modes = "i"
_description = ""
def __init__(self, *args, **kwargs):
super(PillowFormat, self).__init__(*args, **kwargs)
# Used to synchronize _init_pillow(), see #244
self._lock = threading.RLock()
@property
def plugin_id(self):
""" The PIL plugin id.
"""
return self._plugin_id # Set when format is created
def _init_pillow(self):
with self._lock:
if not self._pillow_imported:
self._pillow_imported = True # more like tried to import
import PIL
if not hasattr(PIL, "__version__"): # pragma: no cover
raise ImportError(
"Imageio Pillow plugin requires " "Pillow, not PIL!"
)
from PIL import Image
self._Image = Image
elif self._Image is None: # pragma: no cover
raise RuntimeError("Imageio Pillow plugin requires " "Pillow lib.")
Image = self._Image
if self.plugin_id in ("PNG", "JPEG", "BMP", "GIF", "PPM"):
Image.preinit()
else:
Image.init()
return Image
def _can_read(self, request):
Image = self._init_pillow()
if request.mode[1] in (self.modes + "?"):
if self.plugin_id in Image.OPEN:
factory, accept = Image.OPEN[self.plugin_id]
if accept:
if request.firstbytes and accept(request.firstbytes):
return True
def _can_write(self, request):
Image = self._init_pillow()
if request.mode[1] in (self.modes + "?"):
if request.extension in self.extensions:
if self.plugin_id in Image.SAVE:
return True
class Reader(Format.Reader):
def _open(self, pilmode=None, as_gray=False):
Image = self.format._init_pillow()
try:
factory, accept = Image.OPEN[self.format.plugin_id]
except KeyError:
raise RuntimeError("Format %s cannot read images." % self.format.name)
self._fp = self._get_file()
self._im = factory(self._fp, "")
if hasattr(Image, "_decompression_bomb_check"):
Image._decompression_bomb_check(self._im.size)
# Save the raw mode used by the palette for a BMP because it may not be the number of channels
# When the data is read, imageio hands the palette to PIL to handle and clears the rawmode argument
# However, there is a bug in PIL with handling animated GIFs with a different color palette on each frame.
# This issue is resolved by using the raw palette data but the rawmode information is now lost. So we
# store the raw mode for later use
if self._im.palette and self._im.palette.dirty:
self._im.palette.rawmode_saved = self._im.palette.rawmode
pil_try_read(self._im)
# Store args
self._kwargs = dict(
as_gray=as_gray, is_gray=_palette_is_grayscale(self._im)
)
# setting mode=None is not the same as just not providing it
if pilmode is not None:
self._kwargs["mode"] = pilmode
# Set length
self._length = 1
if hasattr(self._im, "n_frames"):
self._length = self._im.n_frames
def _get_file(self):
self._we_own_fp = False
return self.request.get_file()
def _close(self):
save_pillow_close(self._im)
if self._we_own_fp:
self._fp.close()
# else: request object handles closing the _fp
def _get_length(self):
return self._length
def _seek(self, index):
try:
self._im.seek(index)
except EOFError:
raise IndexError("Could not seek to index %i" % index)
def _get_data(self, index):
if index >= self._length:
raise IndexError("Image index %i > %i" % (index, self._length))
i = self._im.tell()
if i > index:
self._seek(index) # just try
else:
while i < index: # some formats need to be read in sequence
i += 1
self._seek(i)
if self._im.palette and self._im.palette.dirty:
self._im.palette.rawmode_saved = self._im.palette.rawmode
self._im.getdata()[0]
im = pil_get_frame(self._im, **self._kwargs)
return im, self._im.info
def _get_meta_data(self, index):
if not (index is None or index == 0):
raise IndexError()
return self._im.info
class Writer(Format.Writer):
def _open(self):
Image = self.format._init_pillow()
try:
self._save_func = Image.SAVE[self.format.plugin_id]
except KeyError:
raise RuntimeError("Format %s cannot write images." % self.format.name)
self._fp = self.request.get_file()
self._meta = {}
self._written = False
def _close(self):
pass # request object handled closing _fp
def _append_data(self, im, meta):
if self._written:
raise RuntimeError(
"Format %s only supports single images." % self.format.name
)
# Pop unit dimension for grayscale images
if im.ndim == 3 and im.shape[-1] == 1:
im = im[:, :, 0]
self._written = True
self._meta.update(meta)
img = ndarray_to_pil(
im, self.format.plugin_id, self._meta.pop("prefer_uint8", True)
)
if "bits" in self._meta:
img = img.quantize() # Make it a P image, so bits arg is used
img.save(self._fp, format=self.format.plugin_id, **self._meta)
save_pillow_close(img)
def set_meta_data(self, meta):
self._meta.update(meta)
class PNGFormat(PillowFormat):
"""A PNG format based on Pillow.
This format supports grayscale, RGB and RGBA images.
Parameters for reading
----------------------
ignoregamma : bool
Avoid gamma correction. Default True.
pilmode : str
From the Pillow documentation:
* 'L' (8-bit pixels, grayscale)
* 'P' (8-bit pixels, mapped to any other mode using a color palette)
* 'RGB' (3x8-bit pixels, true color)
* 'RGBA' (4x8-bit pixels, true color with transparency mask)
* 'CMYK' (4x8-bit pixels, color separation)
* 'YCbCr' (3x8-bit pixels, color video format)
* 'I' (32-bit signed integer pixels)
* 'F' (32-bit floating point pixels)
PIL also provides limited support for a few special modes, including
'LA' ('L' with alpha), 'RGBX' (true color with padding) and 'RGBa'
(true color with premultiplied alpha).
When translating a color image to grayscale (mode 'L', 'I' or 'F'),
the library uses the ITU-R 601-2 luma transform::
L = R * 299/1000 + G * 587/1000 + B * 114/1000
as_gray : bool
If True, the image is converted using mode 'F'. When `mode` is
not None and `as_gray` is True, the image is first converted
according to `mode`, and the result is then "flattened" using
mode 'F'.
Parameters for saving
---------------------
optimize : bool
If present and true, instructs the PNG writer to make the output file
as small as possible. This includes extra processing in order to find
optimal encoder settings.
transparency:
This option controls what color image to mark as transparent.
dpi: tuple of two scalars
The desired dpi in each direction.
pnginfo: PIL.PngImagePlugin.PngInfo
Object containing text tags.
compress_level: int
ZLIB compression level, a number between 0 and 9: 1 gives best speed,
9 gives best compression, 0 gives no compression at all. Default is 9.
When ``optimize`` option is True ``compress_level`` has no effect
(it is set to 9 regardless of a value passed).
compression: int
Compatibility with the freeimage PNG format. If given, it overrides
compress_level.
icc_profile:
The ICC Profile to include in the saved file.
bits (experimental): int
This option controls how many bits to store. If omitted,
the PNG writer uses 8 bits (256 colors).
quantize:
Compatibility with the freeimage PNG format. If given, it overrides
bits. In this case, given as a number between 1-256.
dictionary (experimental): dict
Set the ZLIB encoder dictionary.
prefer_uint8: bool
Let the PNG writer truncate uint16 image arrays to uint8 if their values fall
within the range [0, 255]. Defaults to true for legacy compatibility, however
it is recommended to set this to false to avoid unexpected behavior when
saving e.g. weakly saturated images.
"""
class Reader(PillowFormat.Reader):
def _open(self, pilmode=None, as_gray=False, ignoregamma=True):
return PillowFormat.Reader._open(self, pilmode=pilmode, as_gray=as_gray)
def _get_data(self, index):
im, info = PillowFormat.Reader._get_data(self, index)
if not self.request.kwargs.get("ignoregamma", True):
# The gamma value in the file represents the gamma factor for the
# hardware on the system where the file was created, and is meant
# to be able to match the colors with the system on which the
# image is shown. See also issue #366
try:
gamma = float(info["gamma"])
except (KeyError, ValueError):
pass
else:
scale = float(65536 if im.dtype == np.uint16 else 255)
gain = 1.0
im[:] = ((im / scale) ** gamma) * scale * gain + 0.4999
return im, info
# --
class Writer(PillowFormat.Writer):
def _open(self, compression=None, quantize=None, interlaced=False, **kwargs):
# Better default for compression
kwargs["compress_level"] = kwargs.get("compress_level", 9)
if compression is not None:
if compression < 0 or compression > 9:
raise ValueError("Invalid PNG compression level: %r" % compression)
kwargs["compress_level"] = compression
if quantize is not None:
for bits in range(1, 9):
if 2 ** bits == quantize:
break
else:
raise ValueError(
"PNG quantize must be power of two, " "not %r" % quantize
)
kwargs["bits"] = bits
if interlaced:
logger.warning("PIL PNG writer cannot produce interlaced images.")
ok_keys = (
"optimize",
"transparency",
"dpi",
"pnginfo",
"bits",
"compress_level",
"icc_profile",
"dictionary",
"prefer_uint8",
)
for key in kwargs:
if key not in ok_keys:
raise TypeError("Invalid arg for PNG writer: %r" % key)
PillowFormat.Writer._open(self)
self._meta.update(kwargs)
def _append_data(self, im, meta):
if str(im.dtype) == "uint16" and (im.ndim == 2 or im.shape[-1] == 1):
im = image_as_uint(im, bitdepth=16)
else:
im = image_as_uint(im, bitdepth=8)
PillowFormat.Writer._append_data(self, im, meta)
class JPEGFormat(PillowFormat):
"""A JPEG format based on Pillow.
This format supports grayscale, RGB and RGBA images.
Parameters for reading
----------------------
exifrotate : bool
Automatically rotate the image according to exif flag. Default True.
pilmode : str
From the Pillow documentation:
* 'L' (8-bit pixels, grayscale)
* 'P' (8-bit pixels, mapped to any other mode using a color palette)
* 'RGB' (3x8-bit pixels, true color)
* 'RGBA' (4x8-bit pixels, true color with transparency mask)
* 'CMYK' (4x8-bit pixels, color separation)
* 'YCbCr' (3x8-bit pixels, color video format)
* 'I' (32-bit signed integer pixels)
* 'F' (32-bit floating point pixels)
PIL also provides limited support for a few special modes, including
'LA' ('L' with alpha), 'RGBX' (true color with padding) and 'RGBa'
(true color with premultiplied alpha).
When translating a color image to grayscale (mode 'L', 'I' or 'F'),
the library uses the ITU-R 601-2 luma transform::
L = R * 299/1000 + G * 587/1000 + B * 114/1000
as_gray : bool
If True, the image is converted using mode 'F'. When `mode` is
not None and `as_gray` is True, the image is first converted
according to `mode`, and the result is then "flattened" using
mode 'F'.
Parameters for saving
---------------------
quality : scalar
The compression factor of the saved image (1..100), higher
numbers result in higher quality but larger file size. Default 75.
progressive : bool
Save as a progressive JPEG file (e.g. for images on the web).
Default False.
optimize : bool
On saving, compute optimal Huffman coding tables (can reduce a few
percent of file size). Default False.
dpi : tuple of int
The pixel density, ``(x,y)``.
icc_profile : object
If present and true, the image is stored with the provided ICC profile.
If this parameter is not provided, the image will be saved with no
profile attached.
exif : dict
If present, the image will be stored with the provided raw EXIF data.
subsampling : str
Sets the subsampling for the encoder. See Pillow docs for details.
qtables : object
Set the qtables for the encoder. See Pillow docs for details.
"""
class Reader(PillowFormat.Reader):
def _open(self, pilmode=None, as_gray=False, exifrotate=True):
return PillowFormat.Reader._open(self, pilmode=pilmode, as_gray=as_gray)
def _get_file(self):
# Pillow uses seek for JPG, so we cannot directly stream from web
if self.request.filename.startswith(
("http://", "https://")
) or ".zip/" in self.request.filename.replace("\\", "/"):
self._we_own_fp = True
return open(self.request.get_local_filename(), "rb")
else:
self._we_own_fp = False
return self.request.get_file()
def _get_data(self, index):
im, info = PillowFormat.Reader._get_data(self, index)
# Handle exif
if "exif" in info:
from PIL.ExifTags import TAGS
info["EXIF_MAIN"] = {}
for tag, value in self._im._getexif().items():
decoded = TAGS.get(tag, tag)
info["EXIF_MAIN"][decoded] = value
im = self._rotate(im, info)
return im, info
def _rotate(self, im, meta):
""" Use Orientation information from EXIF meta data to
orient the image correctly. Similar code as in FreeImage plugin.
"""
if self.request.kwargs.get("exifrotate", True):
try:
ori = meta["EXIF_MAIN"]["Orientation"]
except KeyError: # pragma: no cover
pass # Orientation not available
else: # pragma: no cover - we cannot touch all cases
# www.impulseadventure.com/photo/exif-orientation.html
if ori in [1, 2]:
pass
if ori in [3, 4]:
im = np.rot90(im, 2)
if ori in [5, 6]:
im = np.rot90(im, 3)
if ori in [7, 8]:
im = np.rot90(im)
if ori in [2, 4, 5, 7]: # Flipped cases (rare)
im = np.fliplr(im)
return im
# --
class Writer(PillowFormat.Writer):
def _open(self, quality=75, progressive=False, optimize=False, **kwargs):
# Check quality - in Pillow it should be no higher than 95
quality = int(quality)
if quality < 1 or quality > 100:
raise ValueError("JPEG quality should be between 1 and 100.")
quality = min(95, max(1, quality))
kwargs["quality"] = quality
kwargs["progressive"] = bool(progressive)
kwargs["optimize"] = bool(progressive)
PillowFormat.Writer._open(self)
self._meta.update(kwargs)
def _append_data(self, im, meta):
if im.ndim == 3 and im.shape[-1] == 4:
raise IOError("JPEG does not support alpha channel.")
im = image_as_uint(im, bitdepth=8)
PillowFormat.Writer._append_data(self, im, meta)
return
class JPEG2000Format(PillowFormat):
"""A JPEG 2000 format based on Pillow.
This format supports grayscale and RGB images.
Parameters for reading
----------------------
pilmode : str
From the Pillow documentation:
* 'L' (8-bit pixels, grayscale)
* 'P' (8-bit pixels, mapped to any other mode using a color palette)
* 'RGB' (3x8-bit pixels, true color)
* 'RGBA' (4x8-bit pixels, true color with transparency mask)
* 'CMYK' (4x8-bit pixels, color separation)
* 'YCbCr' (3x8-bit pixels, color video format)
* 'I' (32-bit signed integer pixels)
* 'F' (32-bit floating point pixels)
PIL also provides limited support for a few special modes, including
'LA' ('L' with alpha), 'RGBX' (true color with padding) and 'RGBa'
(true color with premultiplied alpha).
When translating a color image to grayscale (mode 'L', 'I' or 'F'),
the library uses the ITU-R 601-2 luma transform::
L = R * 299/1000 + G * 587/1000 + B * 114/1000
as_gray : bool
If True, the image is converted using mode 'F'. When `mode` is
not None and `as_gray` is True, the image is first converted
according to `mode`, and the result is then "flattened" using
mode 'F'.
Parameters for saving
---------------------
**quality_mode**
Either `"rates"` or `"dB"` depending on the units you want to use to
specify image quality.
**quality**
Approximate size reduction (if quality mode is `rates`) or a signal to noise ratio
in decibels (if quality mode is `dB`).
.. note::
To enable JPEG 2000 support, you need to build and install the OpenJPEG
library, version 2.0.0 or higher, before building the Python Imaging
Library.
Windows users can install the OpenJPEG binaries available on the
OpenJPEG website, but must add them to their PATH in order to use PIL (if
you fail to do this, you will get errors about not being able to load the
``_imaging`` DLL).
"""
class Reader(PillowFormat.Reader):
def _open(self, pilmode=None, as_gray=False):
return PillowFormat.Reader._open(self, pilmode=pilmode, as_gray=as_gray)
def _get_file(self):
# Pillow uses seek for JPG, so we cannot directly stream from web
if self.request.filename.startswith(
("http://", "https://")
) or ".zip/" in self.request.filename.replace("\\", "/"):
self._we_own_fp = True
return open(self.request.get_local_filename(), "rb")
else:
self._we_own_fp = False
return self.request.get_file()
def _get_data(self, index):
im, info = PillowFormat.Reader._get_data(self, index)
# Handle exif
if "exif" in info:
from PIL.ExifTags import TAGS
info["EXIF_MAIN"] = {}
for tag, value in self._im._getexif().items():
decoded = TAGS.get(tag, tag)
info["EXIF_MAIN"][decoded] = value
im = self._rotate(im, info)
return im, info
def _rotate(self, im, meta):
""" Use Orientation information from EXIF meta data to
orient the image correctly. Similar code as in FreeImage plugin.
"""
if self.request.kwargs.get("exifrotate", True):
try:
ori = meta["EXIF_MAIN"]["Orientation"]
except KeyError: # pragma: no cover
pass # Orientation not available
else: # pragma: no cover - we cannot touch all cases
# www.impulseadventure.com/photo/exif-orientation.html
if ori in [1, 2]:
pass
if ori in [3, 4]:
im = np.rot90(im, 2)
if ori in [5, 6]:
im = np.rot90(im, 3)
if ori in [7, 8]:
im = np.rot90(im)
if ori in [2, 4, 5, 7]: # Flipped cases (rare)
im = np.fliplr(im)
return im
# --
class Writer(PillowFormat.Writer):
def _open(self, quality_mode="rates", quality=5, **kwargs):
# Check quality - in Pillow it should be no higher than 95
if quality_mode not in {"rates", "dB"}:
raise ValueError("Quality mode should be either 'rates' or 'dB'")
quality = float(quality)
if quality_mode == "rates" and (quality < 1 or quality > 1000):
raise ValueError(
"The quality value {} seems to be an invalid rate!".format(quality)
)
elif quality_mode == "dB" and (quality < 15 or quality > 100):
raise ValueError(
"The quality value {} seems to be an invalid PSNR!".format(quality)
)
kwargs["quality_mode"] = quality_mode
kwargs["quality_layers"] = [quality]
PillowFormat.Writer._open(self)
self._meta.update(kwargs)
def _append_data(self, im, meta):
if im.ndim == 3 and im.shape[-1] == 4:
raise IOError(
"The current implementation of JPEG 2000 does not support alpha channel."
)
im = image_as_uint(im, bitdepth=8)
PillowFormat.Writer._append_data(self, im, meta)
return
def save_pillow_close(im):
# see issue #216 and #300
if hasattr(im, "close"):
if hasattr(getattr(im, "fp", None), "close"):
im.close()
## Func from skimage
# This cells contains code from scikit-image, in particular from
# http://github.com/scikit-image/scikit-image/blob/master/
# skimage/io/_plugins/pil_plugin.py
# The scikit-image license applies.
def pil_try_read(im):
try:
# this will raise an IOError if the file is not readable
im.getdata()[0]
except IOError as e:
site = "http://pillow.readthedocs.io/en/latest/installation.html"
site += "#external-libraries"
pillow_error_message = str(e)
error_message = (
'Could not load "%s" \n'
'Reason: "%s"\n'
"Please see documentation at: %s"
% (im.filename, pillow_error_message, site)
)
raise ValueError(error_message)
def _palette_is_grayscale(pil_image):
if pil_image.mode != "P":
return False
elif pil_image.info.get("transparency", None): # see issue #475
return False
# get palette as an array with R, G, B columns
palette = np.asarray(pil_image.getpalette()).reshape((256, 3))
# Not all palette colors are used; unused colors have junk values.
start, stop = pil_image.getextrema()
valid_palette = palette[start : stop + 1]
# Image is grayscale if channel differences (R - G and G - B)
# are all zero.
return np.allclose(np.diff(valid_palette), 0)
def pil_get_frame(im, is_gray=None, as_gray=None, mode=None, dtype=None):
"""
is_gray: Whether the image *is* gray (by inspecting its palette).
as_gray: Whether the resulting image must be converted to gaey.
mode: The mode to convert to.
"""
if is_gray is None:
is_gray = _palette_is_grayscale(im)
frame = im
# Convert ...
if mode is not None:
# Mode is explicitly given ...
if mode != im.mode:
frame = im.convert(mode)
elif as_gray:
pass # don't do any auto-conversions (but do the explit one above)
elif im.mode == "P" and is_gray:
# Paletted images that are already gray by their palette
# are converted so that the resulting numpy array is 2D.
frame = im.convert("L")
elif im.mode == "P":
# Paletted images are converted to RGB/RGBA. We jump some loops to make
# this work well.
if im.info.get("transparency", None) is not None:
# Let Pillow apply the transparency, see issue #210 and #246
frame = im.convert("RGBA")
elif im.palette.mode in ("RGB", "RGBA"):
# We can do this ourselves. Pillow seems to sometimes screw
# this up if a multi-gif has a palette for each frame ...
# Create palette array
p = np.frombuffer(im.palette.getdata()[1], np.uint8)
# Restore the raw mode that was saved to be used to parse the palette
if hasattr(im.palette, "rawmode_saved"):
im.palette.rawmode = im.palette.rawmode_saved
mode = im.palette.rawmode if im.palette.rawmode else im.palette.mode
nchannels = len(mode)
# Shape it.
p.shape = -1, nchannels
if p.shape[1] == 3 or (p.shape[1] == 4 and mode[-1] == "X"):
p = np.column_stack((p[:, :3], 255 * np.ones(p.shape[0], p.dtype)))
# Swap the axes if the mode is in BGR and not RGB
if mode.startswith("BGR"):
p = p[:, [2, 1, 0]] if p.shape[1] == 3 else p[:, [2, 1, 0, 3]]
# Apply palette
frame_paletted = np.array(im, np.uint8)
try:
frame = p[frame_paletted]
except Exception:
# Ok, let PIL do it. The introduction of the branch that
# tests `im.info['transparency']` should make this happen
# much less often, but let's keep it, to be safe.
frame = im.convert("RGBA")
else:
# Let Pillow do it. Unlinke skimage, we always convert
# to RGBA; palettes can be RGBA.
if True: # im.format == 'PNG' and 'transparency' in im.info:
frame = im.convert("RGBA")
else:
frame = im.convert("RGB")
elif "A" in im.mode:
frame = im.convert("RGBA")
elif im.mode == "CMYK":
frame = im.convert("RGB")
# Apply a post-convert if necessary
if as_gray:
frame = frame.convert("F") # Scipy compat
elif not isinstance(frame, np.ndarray) and frame.mode == "1":
# Workaround for crash in PIL. When im is 1-bit, the call array(im)
# can cause a segfault, or generate garbage. See
# https://github.com/scipy/scipy/issues/2138 and
# https://github.com/python-pillow/Pillow/issues/350.
#
# This converts im from a 1-bit image to an 8-bit image.
frame = frame.convert("L")
# Convert to numpy array
if im.mode.startswith("I;16"):
# e.g. in16 PNG's
shape = im.size
dtype = ">u2" if im.mode.endswith("B") else "<u2"
if "S" in im.mode:
dtype = dtype.replace("u", "i")
frame = np.frombuffer(frame.tobytes(), dtype).copy()
frame.shape = shape[::-1]
else:
# Use uint16 for PNG's in mode I
if im.format == "PNG" and im.mode == "I" and dtype is None:
dtype = "uint16"
frame = np.array(frame, dtype=dtype)
return frame
def ndarray_to_pil(arr, format_str=None, prefer_uint8=True):
from PIL import Image
if arr.ndim == 3:
arr = image_as_uint(arr, bitdepth=8)
mode = {3: "RGB", 4: "RGBA"}[arr.shape[2]]
elif format_str in ["png", "PNG"]:
mode = "I;16"
mode_base = "I"
if arr.dtype.kind == "f":
arr = image_as_uint(arr)
elif prefer_uint8 and arr.max() < 256 and arr.min() >= 0:
arr = arr.astype(np.uint8)
mode = mode_base = "L"
else:
arr = image_as_uint(arr, bitdepth=16)
else:
arr = image_as_uint(arr, bitdepth=8)
mode = "L"
mode_base = "L"
if mode == "I;16" and int(getattr(Image, "__version__", "0").split(".")[0]) < 6:
# Pillow < v6.0.0 has limited support for the "I;16" mode,
# requiring us to fall back to this expensive workaround.
# tobytes actually creates a copy of the image, which is costly.
array_buffer = arr.tobytes()
if arr.ndim == 2:
im = Image.new(mode_base, arr.T.shape)
im.frombytes(array_buffer, "raw", mode)
else:
image_shape = (arr.shape[1], arr.shape[0])
im = Image.frombytes(mode, image_shape, array_buffer)
return im
else:
return Image.fromarray(arr, mode)
## End of code from scikit-image
from .pillowmulti import GIFFormat, TIFFFormat
IGNORE_FORMATS = "MPEG"
SPECIAL_FORMATS = dict(
PNG=PNGFormat,
JPEG=JPEGFormat,
GIF=GIFFormat,
TIFF=TIFFFormat,
JPEG2000=JPEG2000Format,
)
def register_pillow_formats():
for id, summary, ext in pillow_formats:
if id in IGNORE_FORMATS:
continue
FormatCls = SPECIAL_FORMATS.get(id, PillowFormat)
summary = FormatCls._description or summary
format = FormatCls(id + "-PIL", summary, ext, FormatCls._modes)
format._plugin_id = id
if FormatCls is PillowFormat or not FormatCls.__doc__:
format.__doc__ = pillow_docs[id] + GENERIC_DOCS
formats.add_format(format)
register_pillow_formats()