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Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/imageio/plugins/pillowmulti.py

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"""
PIL formats for multiple images.
"""
import logging
import numpy as np
from .pillow import PillowFormat, ndarray_to_pil, image_as_uint
logger = logging.getLogger(__name__)
NeuQuant = None # we can implement this when we need it
class TIFFFormat(PillowFormat):
_modes = "i" # arg, why bother; people should use the tiffile version
_description = "TIFF format (Pillow)"
class GIFFormat(PillowFormat):
""" A format for reading and writing static and animated GIF, based
on Pillow.
Images read with this format are always RGBA. Currently,
the alpha channel is ignored when saving RGB images with this
format.
Parameters for reading
----------------------
None
Parameters for saving
---------------------
loop : int
The number of iterations. Default 0 (meaning loop indefinitely).
duration : {float, list}
The duration (in seconds) of each frame. Either specify one value
that is used for all frames, or one value for each frame.
Note that in the GIF format the duration/delay is expressed in
hundredths of a second, which limits the precision of the duration.
fps : float
The number of frames per second. If duration is not given, the
duration for each frame is set to 1/fps. Default 10.
palettesize : int
The number of colors to quantize the image to. Is rounded to
the nearest power of two. Default 256.
subrectangles : bool
If True, will try and optimize the GIF by storing only the
rectangular parts of each frame that change with respect to the
previous. Default False.
"""
_modes = "iI"
_description = "Static and animated gif (Pillow)"
class Reader(PillowFormat.Reader):
def _open(self, playback=None): # compat with FI format
return PillowFormat.Reader._open(self)
class Writer(PillowFormat.Writer):
def _open(
self,
loop=0,
duration=None,
fps=10,
palettesize=256,
quantizer=0,
subrectangles=False,
):
# Check palettesize
palettesize = int(palettesize)
if palettesize < 2 or palettesize > 256:
raise ValueError("GIF quantize param must be 2..256")
if palettesize not in [2, 4, 8, 16, 32, 64, 128, 256]:
palettesize = 2 ** int(np.log2(128) + 0.999)
logger.warning(
"Warning: palettesize (%r) modified to a factor of "
"two between 2-256." % palettesize
)
# Duratrion / fps
if duration is None:
self._duration = 1.0 / float(fps)
elif isinstance(duration, (list, tuple)):
self._duration = [float(d) for d in duration]
else:
self._duration = float(duration)
# loop
loop = float(loop)
if loop <= 0 or loop == float("inf"):
loop = 0
loop = int(loop)
# Subrectangles / dispose
subrectangles = bool(subrectangles)
self._dispose = 1 if subrectangles else 2
# The "0" (median cut) quantizer is by far the best
fp = self.request.get_file()
self._writer = GifWriter(
fp, subrectangles, loop, quantizer, int(palettesize)
)
def _close(self):
self._writer.close()
def _append_data(self, im, meta):
im = image_as_uint(im, bitdepth=8)
if im.ndim == 3 and im.shape[-1] == 1:
im = im[:, :, 0]
duration = self._duration
if isinstance(duration, list):
duration = duration[min(len(duration) - 1, self._writer._count)]
dispose = self._dispose
self._writer.add_image(im, duration, dispose)
return
intToBin = lambda i: i.to_bytes(2, byteorder="little")
class GifWriter:
""" Class that for helping write the animated GIF file. This is based on
code from images2gif.py (part of visvis). The version here is modified
to allow streamed writing.
"""
def __init__(
self,
file,
opt_subrectangle=True,
opt_loop=0,
opt_quantizer=0,
opt_palette_size=256,
):
self.fp = file
self.opt_subrectangle = opt_subrectangle
self.opt_loop = opt_loop
self.opt_quantizer = opt_quantizer
self.opt_palette_size = opt_palette_size
self._previous_image = None # as np array
self._global_palette = None # as bytes
self._count = 0
from PIL.GifImagePlugin import getdata
self.getdata = getdata
def add_image(self, im, duration, dispose):
# Prepare image
im_rect, rect = im, (0, 0)
if self.opt_subrectangle:
im_rect, rect = self.getSubRectangle(im)
im_pil = self.converToPIL(im_rect, self.opt_quantizer, self.opt_palette_size)
# Get pallette - apparently, this is the 3d element of the header
# (but it has not always been). Best we've got. Its not the same
# as im_pil.palette.tobytes().
from PIL.GifImagePlugin import getheader
palette = getheader(im_pil)[0][3]
# Write image
if self._count == 0:
self.write_header(im_pil, palette, self.opt_loop)
self._global_palette = palette
self.write_image(im_pil, palette, rect, duration, dispose)
# assert len(palette) == len(self._global_palette)
# Bookkeeping
self._previous_image = im
self._count += 1
def write_header(self, im, globalPalette, loop):
# Gather info
header = self.getheaderAnim(im)
appext = self.getAppExt(loop)
# Write
self.fp.write(header)
self.fp.write(globalPalette)
self.fp.write(appext)
def close(self):
self.fp.write(";".encode("utf-8")) # end gif
def write_image(self, im, palette, rect, duration, dispose):
fp = self.fp
# Gather local image header and data, using PIL's getdata. That
# function returns a list of bytes objects, but which parts are
# what has changed multiple times, so we put together the first
# parts until we have enough to form the image header.
data = self.getdata(im)
imdes = b""
while data and len(imdes) < 11:
imdes += data.pop(0)
assert len(imdes) == 11
# Make image descriptor suitable for using 256 local color palette
lid = self.getImageDescriptor(im, rect)
graphext = self.getGraphicsControlExt(duration, dispose)
# Write local header
if (palette != self._global_palette) or (dispose != 2):
# Use local color palette
fp.write(graphext)
fp.write(lid) # write suitable image descriptor
fp.write(palette) # write local color table
fp.write(b"\x08") # LZW minimum size code
else:
# Use global color palette
fp.write(graphext)
fp.write(imdes) # write suitable image descriptor
# Write image data
for d in data:
fp.write(d)
def getheaderAnim(self, im):
""" Get animation header. To replace PILs getheader()[0]
"""
bb = b"GIF89a"
bb += intToBin(im.size[0])
bb += intToBin(im.size[1])
bb += b"\x87\x00\x00"
return bb
def getImageDescriptor(self, im, xy=None):
""" Used for the local color table properties per image.
Otherwise global color table applies to all frames irrespective of
whether additional colors comes in play that require a redefined
palette. Still a maximum of 256 color per frame, obviously.
Written by Ant1 on 2010-08-22
Modified by Alex Robinson in Janurari 2011 to implement subrectangles.
"""
# Defaule use full image and place at upper left
if xy is None:
xy = (0, 0)
# Image separator,
bb = b"\x2C"
# Image position and size
bb += intToBin(xy[0]) # Left position
bb += intToBin(xy[1]) # Top position
bb += intToBin(im.size[0]) # image width
bb += intToBin(im.size[1]) # image height
# packed field: local color table flag1, interlace0, sorted table0,
# reserved00, lct size111=7=2^(7 + 1)=256.
bb += b"\x87"
# LZW minimum size code now comes later, begining of [imagedata] blocks
return bb
def getAppExt(self, loop):
""" Application extension. This part specifies the amount of loops.
If loop is 0 or inf, it goes on infinitely.
"""
if loop == 1:
return b""
if loop == 0:
loop = 2 ** 16 - 1
bb = b""
if loop != 0: # omit the extension if we would like a nonlooping gif
bb = b"\x21\xFF\x0B" # application extension
bb += b"NETSCAPE2.0"
bb += b"\x03\x01"
bb += intToBin(loop)
bb += b"\x00" # end
return bb
def getGraphicsControlExt(self, duration=0.1, dispose=2):
""" Graphics Control Extension. A sort of header at the start of
each image. Specifies duration and transparancy.
Dispose
-------
* 0 - No disposal specified.
* 1 - Do not dispose. The graphic is to be left in place.
* 2 - Restore to background color. The area used by the graphic
must be restored to the background color.
* 3 - Restore to previous. The decoder is required to restore the
area overwritten by the graphic with what was there prior to
rendering the graphic.
* 4-7 -To be defined.
"""
bb = b"\x21\xF9\x04"
bb += chr((dispose & 3) << 2).encode("utf-8")
# low bit 1 == transparency,
# 2nd bit 1 == user input , next 3 bits, the low two of which are used,
# are dispose.
bb += intToBin(int(duration * 100 + 0.5)) # in 100th of seconds
bb += b"\x00" # no transparant color
bb += b"\x00" # end
return bb
def getSubRectangle(self, im):
""" Calculate the minimal rectangle that need updating. Returns
a two-element tuple containing the cropped image and an x-y tuple.
Calculating the subrectangles takes extra time, obviously. However,
if the image sizes were reduced, the actual writing of the GIF
goes faster. In some cases applying this method produces a GIF faster.
"""
# Cannot do subrectangle for first image
if self._count == 0:
return im, (0, 0)
prev = self._previous_image
# Get difference, sum over colors
diff = np.abs(im - prev)
if diff.ndim == 3:
diff = diff.sum(2)
# Get begin and end for both dimensions
X = np.argwhere(diff.sum(0))
Y = np.argwhere(diff.sum(1))
# Get rect coordinates
if X.size and Y.size:
x0, x1 = int(X[0]), int(X[-1] + 1)
y0, y1 = int(Y[0]), int(Y[-1] + 1)
else: # No change ... make it minimal
x0, x1 = 0, 2
y0, y1 = 0, 2
return im[y0:y1, x0:x1], (x0, y0)
def converToPIL(self, im, quantizer, palette_size=256):
"""Convert image to Paletted PIL image.
PIL used to not do a very good job at quantization, but I guess
this has improved a lot (at least in Pillow). I don't think we need
neuqant (and we can add it later if we really want).
"""
im_pil = ndarray_to_pil(im, "gif")
if quantizer in ("nq", "neuquant"):
# NeuQuant algorithm
nq_samplefac = 10 # 10 seems good in general
im_pil = im_pil.convert("RGBA") # NQ assumes RGBA
nqInstance = NeuQuant(im_pil, nq_samplefac) # Learn colors
im_pil = nqInstance.quantize(im_pil, colors=palette_size)
elif quantizer in (0, 1, 2):
# Adaptive PIL algorithm
if quantizer == 2:
im_pil = im_pil.convert("RGBA")
else:
im_pil = im_pil.convert("RGB")
im_pil = im_pil.quantize(colors=palette_size, method=quantizer)
else:
raise ValueError("Invalid value for quantizer: %r" % quantizer)
return im_pil
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