Delete venv/Lib/site-packages directory

2022-12-11 18:06:22 -05:00 · 2022-12-11 18:06:22 -05:00 · 9170224d23
commit 9170224d23
parent 2e8b5418e3
17 changed files with 0 additions and 15666 deletions
--- a/venv/Lib/site-packages/aenum/CHANGES
+++ b/venv/Lib/site-packages/aenum/CHANGES
@ -1,489 +0,0 @@
 3.1.8
 =====
 recalculate bits used after all flags created (sometimes needed when a custom
 `__new__` is in place.
 3.1.7
 =====
 update flag creation to (possibly) add bitwise operator methods to newly
 created flags
 update extend_enum() to work with 3.11 flags
 3.1.6
 =====
 Update `dir()` on mixed enums to include mixed data type methods and
 attributes.
 Rename `enum_property` to `property` to match stdlib.  Recommended usage is
 `aenum.property` (prefix with module name).
 Remove quadritic creation behavior.
 BREAKING CHANGE BUG FIX that won't affect most people
 Enums with a custom `__new__` that:
 - use the enum machinery to generate the values; AND
 - have keyword arguments set to a default (like `None`)
 will fail to generate a missing value.  To fix: remove the default value and
 instead specify it on the member creation line.
 BREAKING CHANGE
 In Python 3.11 the `str()` of mixed enums will now match its `format()` which
 will be the normal `str()` of the data type -- so for an IntEnum you'll see
 `5` instead of `Perm.R|X`.  This affects IntEnum, StrEnum, and IntFlag.
 3.1.5
 =====
 fix support of `auto()` kwds
 3.1.3
 =====
 rename `aenum.property` to `aenum.enum_property`
 fix `enum_property` to work with `_init_` attributes
 3.1.2
 =====
 fix `extend_enum()` for unhashable values
 3.1.1
 =====
 fix `extend_enum()` for most cases
 3.1.0
 =====
 AddValue is similar to the old AutoNumber: it will always activate, but
 uses _generate_next_value_ to get the next value (so the user has some
 control over the return data type instead of always getting an int).
 BREAKING CHANGES
 AutoValue is gone.  It was superflous and its removal simplified the code.
 Simply put the fields needed in an `_init_` and `_generate_next_value_`
 will be called to supply the missing values (this is probably already what
 is happening).
 3.0.0
 =====
 standard Enum usage is unchanged
 BREAKING CHANGES
 Enum
 - the more esoteric method of creating Enums have been modified or removed
  - AutoNumber setting is gone, inherit from AutoNumberEnum instead
  - creating members without specifying anything is removed (if you don't
    know what this means, you weren't doing it)
 Flag
 - unique flags are canonical (i.e. flags with powers of two values such as
  1, 2, 4, 8, 16, etc.)
 - non-unique flags are aliases (i.e. values such as 3 or 7)
 - iteration of Flag and flag members only uses canonical flags
 ENHANCEMENTS
 Member creation has been redone to match Python 3.10's methods.  This also
 allows all supported Pythons (2.7, 3.3+) to use the __set_name__ and
 __init_subclass__ protocols (more robustly than in aenum 2.2.5)
 CHANGES
 enum_property() has been renamed to property() (old name still available, but
 deprecated).
 bin() replacement shows negative integers in twos-complement
 2.2.5
 =====
 call __init_subclass__ after members have been added, and in Pythons < 3.6
 call __set_name__ in Pythons < 3.6
 do not convert/disallow private names
 add iteration/len support to NamedConstant
 2.2.4
 =====
 add support to Constant to retrieve members by value
    --> class K(Constant):
    ...     one = 1
    ...     two = 2
    --> K.one
    <K.one: 1>
    --> K(1)
    <K.one: 1>
 add pickle/deepcopy support to Constant
 add support for Constant to use other Constant values
  (resulting members /are not/ the same)
    --> class C(Constant)
    ...     one = K.one
    ...     three = 3
    --> C.one == K.one
    True
    --> C.one is K.one
    False
 AutoNumber and auto() now work together
 Enum members are now added to the class as enum_property, which supports
 unshadowing of parent class attributes when called on an Enum member:
    --> class StrEnum(str, Enum):
    ...     lower = 'lower'
    ...     upper = 'upper'
    ...     mixed = 'mixed'
    --> StrEnum.lower
    <StrEnum.lower: 'lower'>
    --> StrEnum.lower.upper()
    'LOWER'
    --> StrEnum.upper
    <StrEnum.upper: 'upper'>
    --> StrEnum.upper.upper()
    'UPPER'
 2.2.3
 =====
 use members' type's methods __str__, __repr__, __format__, and
 __reduce_ex__ if directly assigned in Enum class body; i.e.:
    --> class Color(str, Enum):
    ...     red = 'red'
    ...     green = 'green'
    ...     blue = 'blue'
    ...     __str__ = str.__str__
    --> print(repr(Color.green))
    <Color.green: 'green'>
    --> print(Color.green)
    green
 2.2.2
 =====
 replace _RouteClassAttributeToGetattr with enum_property (it is still
 available as an alias)
 support constant() and auto() being used together:
    --> class Fruit(Flag):
    ...    _order_ = 'apple banana lemon orange'
    ...    apple = auto()
    ...    banana = auto()
    ...    lemon = auto()
    ...    orange = auto()
    ...    CitrusTypes = constant(lemon | orange)
    --> list(Fruit)
    [Fruit.apple, Fruit.banana, Fruit.lemon, Fruit.orange]
    --> list(Fruit.CitrusTypes)
    [Fruit.orange, Fruit.lemon]
    --> Fruit.orange in Fruit.CitrusTypes
    True
 2.2.1
 =====
 allow Enums to be called without a value
    class Color(Enum):
        black = 0
        red = 1
        green = 2
        blue = 3
        #
        @classmethod
        def _missing_value_(cls, value):
            if value is no_arg:
                return cls.black
    >>> Color()
    <Color.black: 0>
 allow Enum name use while constructing Enum (Python 3.4+ only)
    --> class Color(Enum):
    ...     _order_ = 'BLACK WHITE'
    ...     BLACK = Color('black', '#000')
    ...     WHITE = Color('white', '#fff')
    ...     #
    ...     def __init__(self, label, hex):
    ...         self.label = label
    ...         self.hex = hex
 2.2.0
 =====
 BREAKING CHANGE
 ---------------
 In Python 3+ classes defined inside an Enum no longer become members by
 default; in Python 2 they still become members, but see below.
 For cross-compatibility and full control two decorators are provided:
 - @member  --> forces item to become a member
 - @nonmember  --> excludes item from becoming a member
 So to have an Enum that behaves the same in Python 2 and 3, use the
 decorators (and other compatibility shims):
    class Color(Enum):
        _order_ = 'red green blue'
        red = 1
        green = 2
        blue = 3
        @nonmember
        class Shades(Enum):
            _order_ = 'light medium dark'
            light = 1
            medium = 2
            dark = 3
 2.1.4
 =====
 EnumMeta:
 - change __member_new__ to __new_member__ (as the stdlib enum does)
 - assign member name to enum() instances (an Enum helper for defining members)
 - handle empty iterables when using functional API
 - make auto() work with previous enum members
 - keep searching mixins until base class is found
 Enum:
 - fix bug in Flag checks (ensure it is a Flag before checking the name)
 - add multiple mixin support
 - do not allow blank names (functional API)
 - raise TypeError if _missing_* returns wrong type
 - fix __format__ to honor custom __str__
 extend_enum:
 - support stdlib Enums
 - use _generate_next_value_ if value not provided
 general:
 - standardize exception formatting
 - use getfullargspec() in Python 3 (avoids deprecation warnings)
 2.1.2
 =====
 when order is callable, save it for subclass use
 2.1.1
 =====
 correctly raise TypeError for non-Enum containment checks
 support combining names with | for Flag key access
 support _order_ being a callable
 2.1.0
 =====
 support Flags being combined with other data types:
 - add _create_pseudo_member_values_ 
 - add default __new__ and temporary _init_ 
 2.0.10
 ======
 ensure _ignore_ is set when _settings_ specified in body which includes
 AutoValue
 make Flag members iterable
 2.0.9
 =====
 fix missing comma in __all__
 fix extend_enum with custom __new__ methods
 fix MultiValue with AutoNumber without _init_
 2.0.8
 =====
 extend_enum now handles aliases and multivalues correctly
 2.0.7
 =====
 support mixin types with extend_enum
 init and AutoNumber can now work together
 add test for new Enum using EnumMeta
 add tests for variations of multivalue and init
 prevent deletion of NamedConstant.constant
 2.0.6
 =====
 constants cannot be deleted (they already couldn't be changed)
 constants can be used to define other constants
 2.0.5
 =====
 _init_ and MultiValue can now work together
 2.0.4
 =====
 _init_ and AutoValue (and _generate_next_value_) can now work together to
 supply missing values even when some of the required values per member are
 absent
 2.0.3
 =====
 add _missing_value_ and _missing_name_ methods, deprecate _missing_
 make enum instances comparable
 2.0.2
 =====
 both EnumMeta.__getattr__ and Enum.__new__ fall back to _missing_
 2.0.1
 =====
 auto() now works with other data types
 AutoNumber supports legacy Enums (fixed regression)
 2.0.0
 =====
 Flag and IntFlag added.
 1.4.7
 =====
 fix %-interpolation bug
 defined SqlLiteEnum only if sqlite exists
 support pyflakes
 1.4.6
 =====
 version numbering error
 1.4.5
 =====
 revert AutoNumberEnum to custom __new__ instead of AutoNumber
 use _ignore_ to shield against AutoNumber magic
 inherit start and init settings from base Enums
 1.4.4
 =====
 enabled export as a decorator
 enabled _order_ to replace __order__
 enabled python2 support for settings, init, and start
 1.4.3
 =====
 support _ignore_ for dynamically creating class bodies
 1.4.2
 =====
 MultiValue, NoAlias, Unique, and init now work with Python 2
 1.4.1
 =====
 Py3: added Enum creation flags: Auto, MultiValue, NoAlias, Unique
 fixed extend_enum to honor Enum flags
 1.4.0
 =====
 When possible aenum inherits from Python's own enum.
 Breaking change: enum members now default to evaluating as True to maintain
 compatibility with the stdlib.
 Add your own __bool__ (__nonzero__ in Python 2) if need this behavior:
    def __bool__(self):
        return bool(self.value)
    __nonzero__ = __bool__
--- a/venv/Lib/site-packages/aenum/LICENSE
+++ b/venv/Lib/site-packages/aenum/LICENSE
@ -1,32 +0,0 @@
 Copyright (c) 2015, 2016, 2017, 2018 Ethan Furman.
 All rights reserved.
 Redistribution and use in source and binary forms, with or without
 modification, are permitted provided that the following conditions
 are met:
    Redistributions of source code must retain the above
    copyright notice, this list of conditions and the
    following disclaimer.
    Redistributions in binary form must reproduce the above
    copyright notice, this list of conditions and the following
    disclaimer in the documentation and/or other materials
    provided with the distribution.
    Neither the name Ethan Furman nor the names of any
    contributors may be used to endorse or promote products
    derived from this software without specific prior written
    permission.
 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
 LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 POSSIBILITY OF SUCH DAMAGE.
--- a/venv/Lib/site-packages/aenum/init.py
+++ b/venv/Lib/site-packages/aenum/init.py
--- a/venv/Lib/site-packages/aenum/pycache/init.cpython-39.pyc
+++ b/venv/Lib/site-packages/aenum/pycache/init.cpython-39.pyc
--- a/venv/Lib/site-packages/aenum/pycache/_py3.cpython-39.pyc
+++ b/venv/Lib/site-packages/aenum/pycache/_py3.cpython-39.pyc
--- a/venv/Lib/site-packages/aenum/_py2.py
+++ b/venv/Lib/site-packages/aenum/_py2.py
@ -1,7 +0,0 @@
 from operator import div as _div_
 from inspect import getargspec
 def raise_with_traceback(exc, tb):
    raise exc, None, tb
 __all__ = ['_div_', 'getargspec', 'raise_with_traceback']
--- a/venv/Lib/site-packages/aenum/_py3.py
+++ b/venv/Lib/site-packages/aenum/_py3.py
@ -1,12 +0,0 @@
 from inspect import getfullargspec as _getfullargspec
 def getargspec(method):
    args, varargs, keywords, defaults, _, _, _ = _getfullargspec(method)
    return args, varargs, keywords, defaults
 def raise_with_traceback(exc, tb):
    raise exc.with_traceback(tb)
 def raise_from_none(exc):
    raise exc from None
--- a/venv/Lib/site-packages/aenum/doc/aenum.rst
+++ b/venv/Lib/site-packages/aenum/doc/aenum.rst
--- a/venv/Lib/site-packages/aenum/test.py
+++ b/venv/Lib/site-packages/aenum/test.py
--- a/venv/Lib/site-packages/aenum/test_v3.py
+++ b/venv/Lib/site-packages/aenum/test_v3.py
--- a/venv/Lib/site-packages/blendmodes/init.py
+++ b/venv/Lib/site-packages/blendmodes/init.py
@ -1,2 +0,0 @@
 """Use this module to apply a number of blending modes to a background and foreground image
 """
--- a/venv/Lib/site-packages/blendmodes/pycache/init.cpython-39.pyc
+++ b/venv/Lib/site-packages/blendmodes/pycache/init.cpython-39.pyc
--- a/venv/Lib/site-packages/blendmodes/pycache/blend.cpython-39.pyc
+++ b/venv/Lib/site-packages/blendmodes/pycache/blend.cpython-39.pyc
--- a/venv/Lib/site-packages/blendmodes/pycache/blendtype.cpython-39.pyc
+++ b/venv/Lib/site-packages/blendmodes/pycache/blendtype.cpython-39.pyc
--- a/venv/Lib/site-packages/blendmodes/blend.py
+++ b/venv/Lib/site-packages/blendmodes/blend.py
@ -1,511 +0,0 @@
 """Provide blending functions and types.
 Adapted from https://github.com/addisonElliott/pypdn/blob/master/pypdn/reader.py
 and https://gitlab.com/inklabapp/pyora/-/blob/master/pyora/BlendNonSep.py
 MIT License Copyright (c) 2020 FredHappyface
 Credits to:
 MIT License Copyright (c) 2019 Paul Jewell
 For implementing blending from the Open Raster Image Spec
 MIT License Copyright (c) 2018 Addison Elliott
 For implementing blending from Paint.NET
 MIT License Copyright (c) 2017 pashango
 For implementing a number of blending functions used by other popular image
 editors
 """
 from __future__ import annotations
 import warnings
 import numpy as np
 from PIL import Image
 from .blendtype import BlendType
 def normal(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.NORMAL."""
 	del background  # we don't care about this
 	return foreground
 def multiply(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.MULTIPLY."""
 	return np.clip(foreground * background, 0.0, 1.0)
 def additive(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.ADDITIVE."""
 	return np.minimum(background + foreground, 1.0)
 def colourburn(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.COLOURBURN."""
 	with np.errstate(divide="ignore"):
 		return np.where(
 			foreground != 0.0, np.maximum(1.0 - ((1.0 - background) / foreground), 0.0), 0.0
 		)
 def colourdodge(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.COLOURDODGE."""
 	with np.errstate(divide="ignore"):
 		return np.where(foreground != 1.0, np.minimum(background / (1.0 - foreground), 1.0), 1.0)
 def reflect(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.REFLECT."""
 	with np.errstate(divide="ignore"):
 		return np.where(
 			foreground != 1.0, np.minimum((background ** 2) / (1.0 - foreground), 1.0), 1.0
 		)
 def glow(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.GLOW."""
 	with np.errstate(divide="ignore"):
 		return np.where(
 			background != 1.0, np.minimum((foreground ** 2) / (1.0 - background), 1.0), 1.0
 		)
 def overlay(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.OVERLAY."""
 	return np.where(
 		background < 0.5,
 		2 * background * foreground,
 		1.0 - (2 * (1.0 - background) * (1.0 - foreground)),
 	)
 def difference(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.DIFFERENCE."""
 	return np.abs(background - foreground)
 def negation(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.NEGATION."""
 	return np.maximum(background - foreground, 0.0)
 def lighten(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.LIGHTEN."""
 	return np.maximum(background, foreground)
 def darken(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.DARKEN."""
 	return np.minimum(background, foreground)
 def screen(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.SCREEN."""
 	return background + foreground - background * foreground
 def xor(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.XOR."""
 	# XOR requires int values so convert to uint8
 	with warnings.catch_warnings():
 		warnings.simplefilter("ignore")
 		return imageIntToFloat(imageFloatToInt(background) ^ imageFloatToInt(foreground))
 def softlight(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.SOFTLIGHT."""
 	return (1.0 - background) * background * foreground + background * (
 		1.0 - (1.0 - background) * (1.0 - foreground)
 	)
 def hardlight(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.HARDLIGHT."""
 	return np.where(
 		foreground < 0.5,
 		np.minimum(background * 2 * foreground, 1.0),
 		np.minimum(1.0 - ((1.0 - background) * (1.0 - (foreground - 0.5) * 2.0)), 1.0),
 	)
 def grainextract(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.GRAINEXTRACT."""
 	return np.clip(background - foreground + 0.5, 0.0, 1.0)
 def grainmerge(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.GRAINMERGE."""
 	return np.clip(background + foreground - 0.5, 0.0, 1.0)
 def divide(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.DIVIDE."""
 	return np.minimum((256.0 / 255.0 * background) / (1.0 / 255.0 + foreground), 1.0)
 def pinlight(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.PINLIGHT."""
 	return np.minimum(background, 2 * foreground) * (foreground < 0.5) + np.maximum(
 		background, 2 * (foreground - 0.5)
 	) * (foreground >= 0.5)
 def vividlight(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.VIVIDLIGHT."""
 	return colourburn(background, foreground * 2) * (foreground < 0.5) + colourdodge(
 		background, 2 * (foreground - 0.5)
 	) * (foreground >= 0.5)
 def exclusion(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.EXCLUSION."""
 	return background + foreground - (2.0 * background * foreground)
 def _lum(colours: np.ndarray) -> np.ndarray:
 	"""Luminosity.
 	:param colours: x by x by 3 matrix of rgb color components of pixels
 	:return: x by x by 3 matrix of luminosity of pixels
 	"""
 	return (colours[:, :, 0] * 0.299) + (colours[:, :, 1] * 0.587) + (colours[:, :, 2] * 0.114)
 def _setLum(originalColours: np.ndarray, newLuminosity: np.ndarray) -> np.ndarray:
 	"""Set a new luminosity value for the matrix of color."""
 	_colours = originalColours.copy()
 	_luminosity = _lum(_colours)
 	deltaLum = newLuminosity - _luminosity
 	_colours[:, :, 0] += deltaLum
 	_colours[:, :, 1] += deltaLum
 	_colours[:, :, 2] += deltaLum
 	_luminosity = _lum(_colours)
 	_minColours = np.min(_colours, axis=2)
 	_MaxColours = np.max(_colours, axis=2)
 	for i in range(_colours.shape[0]):
 		for j in range(_colours.shape[1]):
 			_colour = _colours[i][j]
 			newLuminosity = _luminosity[i, j]
 			minColour = _minColours[i, j]
 			maxColour = _MaxColours[i, j]
 			if minColour < 0:
 				_colours[i][j] = newLuminosity + (
 					((_colour - newLuminosity) * newLuminosity) / (newLuminosity - minColour)
 				)
 			if maxColour > 1:
 				_colours[i][j] = newLuminosity + (
 					((_colour - newLuminosity) * (1 - newLuminosity)) / (maxColour - newLuminosity)
 				)
 	return _colours
 def _sat(colours: np.ndarray) -> np.ndarray:
 	"""Saturation.
 	:param colours: x by x by 3 matrix of rgb color components of pixels
 	:return: int of saturation of pixels
 	"""
 	return np.max(colours, axis=2) - np.min(colours, axis=2)
 def _setSat(originalColours: np.ndarray, newSaturation: np.ndarray) -> np.ndarray:
 	"""Set a new saturation value for the matrix of color.
 	The current implementation cannot be vectorized in an efficient manner,
 	so it is very slow,
 	O(m*n) at least. This might be able to be improved with openCL if that is
 	the direction that the lib takes.
 	:param c: x by x by 3 matrix of rgb color components of pixels
 	:param s: int of the new saturation value for the matrix
 	:return: x by x by 3 matrix of luminosity of pixels
 	"""
 	_colours = originalColours.copy()
 	for i in range(_colours.shape[0]):
 		for j in range(_colours.shape[1]):
 			_colour = _colours[i][j]
 			minI = 0
 			midI = 1
 			maxI = 2
 			if _colour[midI] < _colour[minI]:
 				minI, midI = midI, minI
 			if _colour[maxI] < _colour[midI]:
 				midI, maxI = maxI, midI
 			if _colour[midI] < _colour[minI]:
 				minI, midI = midI, minI
 			if _colour[maxI] - _colour[minI] > 0.0:
 				_colours[i][j][midI] = ((_colour[midI] - _colour[minI]) * newSaturation[i, j]) / (
 					_colour[maxI] - _colour[minI]
 				)
 				_colours[i][j][maxI] = newSaturation[i, j]
 			else:
 				_colours[i][j][midI] = 0
 				_colours[i][j][maxI] = 0
 			_colours[i][j][minI] = 0
 	return _colours
 def hue(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.HUE."""
 	return _setLum(_setSat(foreground, _sat(background)), _lum(background))
 def saturation(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.SATURATION."""
 	return _setLum(_setSat(background, _sat(foreground)), _lum(background))
 def colour(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.COLOUR."""
 	return _setLum(foreground, _lum(background))
 def luminosity(background: np.ndarray, foreground: np.ndarray) -> np.ndarray:
 	"""BlendType.LUMINOSITY."""
 	return _setLum(background, _lum(foreground))
 def destin(
 	backgroundAlpha: np.ndarray,
 	foregroundAlpha: np.ndarray,
 	backgroundColour: np.ndarray,
 	foregroundColour: np.ndarray,
 ):
 	"""'clip' composite mode.
 	All parts of 'layer above' which are alpha in 'layer below' will be made
 	also alpha in 'layer above'
 	(to whatever degree of alpha they were)
 	Destination which overlaps the source, replaces the source.
 	Fa = 0; Fb = αs
 	co = αb x Cb x αs
 	αo = αb x αs
 	"""
 	del foregroundColour  # Not used by function
 	outAlpha = backgroundAlpha * foregroundAlpha
 	with np.errstate(divide="ignore", invalid="ignore"):
 		outRGB = np.divide(
 			np.multiply((backgroundAlpha * foregroundAlpha)[:, :, None], backgroundColour),
 			outAlpha[:, :, None],
 		)
 	return outRGB, outAlpha
 def destout(
 	backgroundAlpha: np.ndarray,
 	foregroundAlpha: np.ndarray,
 	backgroundColour: np.ndarray,
 	foregroundColour: np.ndarray,
 ):
 	"""Reverse 'Clip' composite mode.
 	All parts of 'layer below' which are alpha in 'layer above' will be made
 	also alpha in 'layer below'
 	(to whatever degree of alpha they were)
 	"""
 	del foregroundColour  # Not used by function
 	outAlpha = backgroundAlpha * (1 - foregroundAlpha)
 	with np.errstate(divide="ignore", invalid="ignore"):
 		outRGB = np.divide(
 			np.multiply((backgroundAlpha * (1 - foregroundAlpha))[:, :, None], backgroundColour),
 			outAlpha[:, :, None],
 		)
 	return outRGB, outAlpha
 def destatop(
 	backgroundAlpha: np.ndarray,
 	foregroundAlpha: np.ndarray,
 	backgroundColour: np.ndarray,
 	foregroundColour: np.ndarray,
 ):
 	"""Place the layer below above the 'layer above' in places where the 'layer above' exists...
 	where 'layer below' does not exist, but 'layer above' does, place 'layer-above'
 	"""
 	outAlpha = (foregroundAlpha * (1 - backgroundAlpha)) + (backgroundAlpha * foregroundAlpha)
 	with np.errstate(divide="ignore", invalid="ignore"):
 		outRGB = np.divide(
 			np.multiply((foregroundAlpha * (1 - backgroundAlpha))[:, :, None], foregroundColour)
 			+ np.multiply((backgroundAlpha * foregroundAlpha)[:, :, None], backgroundColour),
 			outAlpha[:, :, None],
 		)
 	return outRGB, outAlpha
 def srcatop(
 	backgroundAlpha: np.ndarray,
 	foregroundAlpha: np.ndarray,
 	backgroundColour: np.ndarray,
 	foregroundColour: np.ndarray,
 ):
 	"""Place the layer below above the 'layer above' in places where the 'layer above' exists."""
 	outAlpha = (foregroundAlpha * backgroundAlpha) + (backgroundAlpha * (1 - foregroundAlpha))
 	with np.errstate(divide="ignore", invalid="ignore"):
 		outRGB = np.divide(
 			np.multiply((foregroundAlpha * backgroundAlpha)[:, :, None], foregroundColour)
 			+ np.multiply((backgroundAlpha * (1 - foregroundAlpha))[:, :, None], backgroundColour),
 			outAlpha[:, :, None],
 		)
 	return outRGB, outAlpha
 def imageIntToFloat(image: np.ndarray) -> np.ndarray:
 	"""Convert a numpy array representing an image to an array of floats.
 	Args:
 		image (np.ndarray): numpy array of ints
 	Returns:
 		np.ndarray: numpy array of floats
 	"""
 	return image / 255
 def imageFloatToInt(image: np.ndarray) -> np.ndarray:
 	"""Convert a numpy array representing an image to an array of ints.
 	Args:
 		image (np.ndarray): numpy array of floats
 	Returns:
 		np.ndarray: numpy array of ints
 	"""
 	return (image * 255).astype(np.uint8)
 def blend(background: np.ndarray, foreground: np.ndarray, blendType: BlendType) -> np.ndarray:
 	"""Blend pixels.
 	Args:
 		background (np.ndarray): background
 		foreground (np.ndarray): foreground
 		blendType (BlendType): the blend type
 	Returns:
 		np.ndarray: new array representing the image
 	background: np.ndarray,
 	foreground: np.ndarray and the return are in the form
 		[[[0. 0. 0.]
 		[0. 0. 0.]
 		[0. 0. 0.]
 		...
 		[0. 0. 0.]
 		[0. 0. 0.]
 		[0. 0. 0.]]
 		...
 		[[0. 0. 0.]
 		[0. 0. 0.]
 		[0. 0. 0.]
 		...
 		[0. 0. 0.]
 		[0. 0. 0.]
 		[0. 0. 0.]]]
 	"""
 	blendLookup = {
 		BlendType.NORMAL: normal,
 		BlendType.MULTIPLY: multiply,
 		BlendType.COLOURBURN: colourburn,
 		BlendType.COLOURDODGE: colourdodge,
 		BlendType.REFLECT: reflect,
 		BlendType.OVERLAY: overlay,
 		BlendType.DIFFERENCE: difference,
 		BlendType.LIGHTEN: lighten,
 		BlendType.DARKEN: darken,
 		BlendType.SCREEN: screen,
 		BlendType.SOFTLIGHT: softlight,
 		BlendType.HARDLIGHT: hardlight,
 		BlendType.GRAINEXTRACT: grainextract,
 		BlendType.GRAINMERGE: grainmerge,
 		BlendType.DIVIDE: divide,
 		BlendType.HUE: hue,
 		BlendType.SATURATION: saturation,
 		BlendType.COLOUR: colour,
 		BlendType.LUMINOSITY: luminosity,
 		BlendType.XOR: xor,
 		BlendType.NEGATION: negation,
 		BlendType.PINLIGHT: pinlight,
 		BlendType.VIVIDLIGHT: vividlight,
 		BlendType.EXCLUSION: exclusion,
 	}
 	if blendType not in blendLookup:
 		return normal(background, foreground)
 	return blendLookup[blendType](background, foreground)
 def blendLayers(
 	background: Image.Image,
 	foreground: Image.Image,
 	blendType: BlendType | tuple[str, ...],
 	opacity: float = 1.0,
 ) -> Image.Image:
 	"""Blend layers using numpy array.
 	Args:
 		background (Image.Image): background layer
 		foreground (Image.Image): foreground layer (must be same size as background)
 		blendType (BlendType): The blendtype
 		opacity (float): The opacity of the foreground image
 	Returns:
 		Image.Image: combined image
 	"""
 	# Convert the Image.Image to a numpy array
 	npForeground: np.ndarray = imageIntToFloat(np.array(foreground.convert("RGBA")))
 	npBackground: np.ndarray = imageIntToFloat(np.array(background.convert("RGBA")))
 	# Get the alpha from the layers
 	backgroundAlpha = npBackground[:, :, 3]
 	foregroundAlpha = npForeground[:, :, 3] * opacity
 	combinedAlpha = backgroundAlpha * foregroundAlpha
 	# Get the colour from the layers
 	backgroundColor = npBackground[:, :, 0:3]
 	foregroundColor = npForeground[:, :, 0:3]
 	# Some effects require alpha
 	alphaFunc = {
 		BlendType.DESTIN: destin,
 		BlendType.DESTOUT: destout,
 		BlendType.SRCATOP: srcatop,
 		BlendType.DESTATOP: destatop,
 	}
 	if blendType in alphaFunc:
 		return Image.fromarray(
 			imageFloatToInt(
 				np.clip(
 					np.dstack(
 						alphaFunc[blendType](
 							backgroundAlpha, foregroundAlpha, backgroundColor, foregroundColor
 						)
 					),
 					a_min=0,
 					a_max=1,
 				)
 			)
 		)
 	# Get the colours and the alpha for the new image
 	colorComponents = (
 		(backgroundAlpha - combinedAlpha)[:, :, None] * backgroundColor
 		+ (foregroundAlpha - combinedAlpha)[:, :, None] * foregroundColor
 		+ combinedAlpha[:, :, None] * blend(backgroundColor, foregroundColor, blendType)
 	)
 	alphaComponent = backgroundAlpha + foregroundAlpha - combinedAlpha
 	return Image.fromarray(
 		imageFloatToInt(np.clip(np.dstack((colorComponents, alphaComponent)), a_min=0, a_max=1))
 	)
--- a/venv/Lib/site-packages/blendmodes/blendtype.py
+++ b/venv/Lib/site-packages/blendmodes/blendtype.py
@ -1,72 +0,0 @@
 """Specify supported blend types."""
 from __future__ import annotations
 from aenum import MultiValueEnum
 class BlendType(str, MultiValueEnum):
 	"""Specify supported blend types.
 	NORMAL = "bm:normal", "normal"
 	MULTIPLY = "bm:multiply", "multiply"
 	ADDITIVE = "bm:additive", "additive"
 	COLOURBURN = "bm:colourburn", "colourburn"
 	COLOURDODGE = "bm:colourdodge", "colourdodge"
 	REFLECT = "bm:reflect", "reflect"
 	GLOW = "bm:glow", "glow"
 	OVERLAY = "bm:overlay", "overlay"
 	DIFFERENCE = "bm:difference", "difference"
 	NEGATION = "bm:negation", "negation"
 	LIGHTEN = "bm:lighten", "lighten"
 	DARKEN = "bm:darken", "darken"
 	SCREEN = "bm:screen", "screen"
 	XOR = "bm:xor", "xor"
 	SOFTLIGHT = "bm:softlight", "softlight"
 	HARDLIGHT = "bm:hardlight", "hardlight"
 	GRAINEXTRACT = "bm:grainextract", "grainextract"
 	GRAINMERGE = "bm:grainmerge", "grainmerge"
 	DIVIDE = "bm:divide", "divide"
 	HUE = "bm:hue", "hue"
 	SATURATION = "bm:saturation", "saturation"
 	COLOUR = "bm:colour", "colour"
 	LUMINOSITY = "bm:luminosity", "luminosity"
 	PINLIGHT = "bm:pinlight", "pinlight"
 	VIVIDLIGHT = "bm:vividlight", "vividlight"
 	EXCLUSION = "bm:exclusion", "exclusion"
 	DESTIN = "bm:destin", "destin"
 	DESTOUT = "bm:destout", "destout"
 	SRCATOP = "bm:srcatop", "srcatop"
 	DESTATOP = "bm:destatop", "destatop"
 	"""
 	NORMAL = "bm:normal", "normal"
 	MULTIPLY = "bm:multiply", "multiply"
 	ADDITIVE = "bm:additive", "additive"
 	COLOURBURN = "bm:colourburn", "colourburn"
 	COLOURDODGE = "bm:colourdodge", "colourdodge"
 	REFLECT = "bm:reflect", "reflect"
 	GLOW = "bm:glow", "glow"
 	OVERLAY = "bm:overlay", "overlay"
 	DIFFERENCE = "bm:difference", "difference"
 	NEGATION = "bm:negation", "negation"
 	LIGHTEN = "bm:lighten", "lighten"
 	DARKEN = "bm:darken", "darken"
 	SCREEN = "bm:screen", "screen"
 	XOR = "bm:xor", "xor"
 	SOFTLIGHT = "bm:softlight", "softlight"
 	HARDLIGHT = "bm:hardlight", "hardlight"
 	GRAINEXTRACT = "bm:grainextract", "grainextract"
 	GRAINMERGE = "bm:grainmerge", "grainmerge"
 	DIVIDE = "bm:divide", "divide"
 	HUE = "bm:hue", "hue"
 	SATURATION = "bm:saturation", "saturation"
 	COLOUR = "bm:colour", "colour"
 	LUMINOSITY = "bm:luminosity", "luminosity"
 	PINLIGHT = "bm:pinlight", "pinlight"
 	VIVIDLIGHT = "bm:vividlight", "vividlight"
 	EXCLUSION = "bm:exclusion", "exclusion"
 	DESTIN = "bm:destin", "destin"
 	DESTOUT = "bm:destout", "destout"
 	SRCATOP = "bm:srcatop", "srcatop"
 	DESTATOP = "bm:destatop", "destatop"
--- a/venv/Lib/site-packages/blendmodes/imagetools.py
+++ b/venv/Lib/site-packages/blendmodes/imagetools.py
@ -1,48 +0,0 @@
 """Do stuff to images to prepare them.
 """
 from __future__ import annotations
 import warnings
 from deprecation import deprecated
 from PIL import Image
@deprecated(deprecated_in="2021.1", removed_in="", details="use renderWAlphaOffset")
 def rasterImageOA(  # pylint:disable=missing-function-docstring
 	image: Image.Image, size: tuple[int, int], alpha: float = 1.0, offsets: tuple[int, int] = (0, 0)
 ) -> Image.Image:
 	warnings.warn(
 		"Call to deprecated function rasterImageOA.", category=DeprecationWarning, stacklevel=2
 	)
 	return renderWAlphaOffset(image, size, alpha, offsets)
@deprecated(deprecated_in="2021.1", removed_in="", details="use renderWAlphaOffset")
 def rasterImageOffset(  # pylint:disable=missing-function-docstring
 	image: Image.Image, size: tuple[int, int], offsets: tuple[int, int] = (0, 0)
 ) -> Image.Image:
 	warnings.warn(
 		"Call to deprecated function rasterImageOffset.", category=DeprecationWarning, stacklevel=2
 	)
 	return renderWAlphaOffset(image, size, 1, offsets)
 def renderWAlphaOffset(
 	image: Image.Image, size: tuple[int, int], alpha: float = 1.0, offsets: tuple[int, int] = (0, 0)
 ) -> Image.Image:
 	"""Render an image with offset and alpha to a given size.
 	Args:
 		image (Image.Image): pil image to draw
 		size (tuple[int, int]): width, height as a tuple
 		alpha (float, optional): alpha transparency. Defaults to 1.0.
 		offsets (tuple[int, int], optional): x, y offsets as a tuple.
 		Defaults to (0, 0).
 	Returns:
 		Image.Image: new image
 	"""
 	imageOffset = Image.new("RGBA", size)
 	imageOffset.paste(image.convert("RGBA"), offsets, image.convert("RGBA"))
 	return Image.blend(Image.new("RGBA", size), imageOffset, alpha)
		`@ -1,2 +0,0 @@`
			`"""Use this module to apply a number of blending modes to a background and foreground image`
			`"""`