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# | |
# The Python Imaging Library. | |
# $Id$ | |
# | |
# global image statistics | |
# | |
# History: | |
# 1996-04-05 fl Created | |
# 1997-05-21 fl Added mask; added rms, var, stddev attributes | |
# 1997-08-05 fl Added median | |
# 1998-07-05 hk Fixed integer overflow error | |
# | |
# Notes: | |
# This class shows how to implement delayed evaluation of attributes. | |
# To get a certain value, simply access the corresponding attribute. | |
# The __getattr__ dispatcher takes care of the rest. | |
# | |
# Copyright (c) Secret Labs AB 1997. | |
# Copyright (c) Fredrik Lundh 1996-97. | |
# | |
# See the README file for information on usage and redistribution. | |
# | |
from __future__ import annotations | |
import math | |
from functools import cached_property | |
from . import Image | |
class Stat: | |
def __init__( | |
self, image_or_list: Image.Image | list[int], mask: Image.Image | None = None | |
) -> None: | |
""" | |
Calculate statistics for the given image. If a mask is included, | |
only the regions covered by that mask are included in the | |
statistics. You can also pass in a previously calculated histogram. | |
:param image: A PIL image, or a precalculated histogram. | |
.. note:: | |
For a PIL image, calculations rely on the | |
:py:meth:`~PIL.Image.Image.histogram` method. The pixel counts are | |
grouped into 256 bins, even if the image has more than 8 bits per | |
channel. So ``I`` and ``F`` mode images have a maximum ``mean``, | |
``median`` and ``rms`` of 255, and cannot have an ``extrema`` maximum | |
of more than 255. | |
:param mask: An optional mask. | |
""" | |
if isinstance(image_or_list, Image.Image): | |
self.h = image_or_list.histogram(mask) | |
elif isinstance(image_or_list, list): | |
self.h = image_or_list | |
else: | |
msg = "first argument must be image or list" # type: ignore[unreachable] | |
raise TypeError(msg) | |
self.bands = list(range(len(self.h) // 256)) | |
def extrema(self) -> list[tuple[int, int]]: | |
""" | |
Min/max values for each band in the image. | |
.. note:: | |
This relies on the :py:meth:`~PIL.Image.Image.histogram` method, and | |
simply returns the low and high bins used. This is correct for | |
images with 8 bits per channel, but fails for other modes such as | |
``I`` or ``F``. Instead, use :py:meth:`~PIL.Image.Image.getextrema` to | |
return per-band extrema for the image. This is more correct and | |
efficient because, for non-8-bit modes, the histogram method uses | |
:py:meth:`~PIL.Image.Image.getextrema` to determine the bins used. | |
""" | |
def minmax(histogram: list[int]) -> tuple[int, int]: | |
res_min, res_max = 255, 0 | |
for i in range(256): | |
if histogram[i]: | |
res_min = i | |
break | |
for i in range(255, -1, -1): | |
if histogram[i]: | |
res_max = i | |
break | |
return res_min, res_max | |
return [minmax(self.h[i:]) for i in range(0, len(self.h), 256)] | |
def count(self) -> list[int]: | |
"""Total number of pixels for each band in the image.""" | |
return [sum(self.h[i : i + 256]) for i in range(0, len(self.h), 256)] | |
def sum(self) -> list[float]: | |
"""Sum of all pixels for each band in the image.""" | |
v = [] | |
for i in range(0, len(self.h), 256): | |
layer_sum = 0.0 | |
for j in range(256): | |
layer_sum += j * self.h[i + j] | |
v.append(layer_sum) | |
return v | |
def sum2(self) -> list[float]: | |
"""Squared sum of all pixels for each band in the image.""" | |
v = [] | |
for i in range(0, len(self.h), 256): | |
sum2 = 0.0 | |
for j in range(256): | |
sum2 += (j**2) * float(self.h[i + j]) | |
v.append(sum2) | |
return v | |
def mean(self) -> list[float]: | |
"""Average (arithmetic mean) pixel level for each band in the image.""" | |
return [self.sum[i] / self.count[i] for i in self.bands] | |
def median(self) -> list[int]: | |
"""Median pixel level for each band in the image.""" | |
v = [] | |
for i in self.bands: | |
s = 0 | |
half = self.count[i] // 2 | |
b = i * 256 | |
for j in range(256): | |
s = s + self.h[b + j] | |
if s > half: | |
break | |
v.append(j) | |
return v | |
def rms(self) -> list[float]: | |
"""RMS (root-mean-square) for each band in the image.""" | |
return [math.sqrt(self.sum2[i] / self.count[i]) for i in self.bands] | |
def var(self) -> list[float]: | |
"""Variance for each band in the image.""" | |
return [ | |
(self.sum2[i] - (self.sum[i] ** 2.0) / self.count[i]) / self.count[i] | |
for i in self.bands | |
] | |
def stddev(self) -> list[float]: | |
"""Standard deviation for each band in the image.""" | |
return [math.sqrt(self.var[i]) for i in self.bands] | |
Global = Stat # compatibility | |