test-kivy-app/kivy_venv/lib/python3.11/site-packages/PIL/ImageDraw.py
2024-09-15 15:12:16 +03:00

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#
# The Python Imaging Library
# $Id$
#
# drawing interface operations
#
# History:
# 1996-04-13 fl Created (experimental)
# 1996-08-07 fl Filled polygons, ellipses.
# 1996-08-13 fl Added text support
# 1998-06-28 fl Handle I and F images
# 1998-12-29 fl Added arc; use arc primitive to draw ellipses
# 1999-01-10 fl Added shape stuff (experimental)
# 1999-02-06 fl Added bitmap support
# 1999-02-11 fl Changed all primitives to take options
# 1999-02-20 fl Fixed backwards compatibility
# 2000-10-12 fl Copy on write, when necessary
# 2001-02-18 fl Use default ink for bitmap/text also in fill mode
# 2002-10-24 fl Added support for CSS-style color strings
# 2002-12-10 fl Added experimental support for RGBA-on-RGB drawing
# 2002-12-11 fl Refactored low-level drawing API (work in progress)
# 2004-08-26 fl Made Draw() a factory function, added getdraw() support
# 2004-09-04 fl Added width support to line primitive
# 2004-09-10 fl Added font mode handling
# 2006-06-19 fl Added font bearing support (getmask2)
#
# Copyright (c) 1997-2006 by Secret Labs AB
# Copyright (c) 1996-2006 by Fredrik Lundh
#
# See the README file for information on usage and redistribution.
#
from __future__ import annotations
import math
import numbers
import struct
from types import ModuleType
from typing import TYPE_CHECKING, AnyStr, Callable, List, Sequence, Tuple, Union, cast
from . import Image, ImageColor
from ._deprecate import deprecate
from ._typing import Coords
# experimental access to the outline API
Outline: Callable[[], Image.core._Outline] | None
try:
Outline = Image.core.outline
except AttributeError:
Outline = None
if TYPE_CHECKING:
from . import ImageDraw2, ImageFont
_Ink = Union[float, Tuple[int, ...], str]
"""
A simple 2D drawing interface for PIL images.
<p>
Application code should use the <b>Draw</b> factory, instead of
directly.
"""
class ImageDraw:
font: (
ImageFont.ImageFont | ImageFont.FreeTypeFont | ImageFont.TransposedFont | None
) = None
def __init__(self, im: Image.Image, mode: str | None = None) -> None:
"""
Create a drawing instance.
:param im: The image to draw in.
:param mode: Optional mode to use for color values. For RGB
images, this argument can be RGB or RGBA (to blend the
drawing into the image). For all other modes, this argument
must be the same as the image mode. If omitted, the mode
defaults to the mode of the image.
"""
im.load()
if im.readonly:
im._copy() # make it writeable
blend = 0
if mode is None:
mode = im.mode
if mode != im.mode:
if mode == "RGBA" and im.mode == "RGB":
blend = 1
else:
msg = "mode mismatch"
raise ValueError(msg)
if mode == "P":
self.palette = im.palette
else:
self.palette = None
self._image = im
self.im = im.im
self.draw = Image.core.draw(self.im, blend)
self.mode = mode
if mode in ("I", "F"):
self.ink = self.draw.draw_ink(1)
else:
self.ink = self.draw.draw_ink(-1)
if mode in ("1", "P", "I", "F"):
# FIXME: fix Fill2 to properly support matte for I+F images
self.fontmode = "1"
else:
self.fontmode = "L" # aliasing is okay for other modes
self.fill = False
def getfont(
self,
) -> ImageFont.ImageFont | ImageFont.FreeTypeFont | ImageFont.TransposedFont:
"""
Get the current default font.
To set the default font for this ImageDraw instance::
from PIL import ImageDraw, ImageFont
draw.font = ImageFont.truetype("Tests/fonts/FreeMono.ttf")
To set the default font for all future ImageDraw instances::
from PIL import ImageDraw, ImageFont
ImageDraw.ImageDraw.font = ImageFont.truetype("Tests/fonts/FreeMono.ttf")
If the current default font is ``None``,
it is initialized with ``ImageFont.load_default()``.
:returns: An image font."""
if not self.font:
# FIXME: should add a font repository
from . import ImageFont
self.font = ImageFont.load_default()
return self.font
def _getfont(
self, font_size: float | None
) -> ImageFont.ImageFont | ImageFont.FreeTypeFont | ImageFont.TransposedFont:
if font_size is not None:
from . import ImageFont
return ImageFont.load_default(font_size)
else:
return self.getfont()
def _getink(
self, ink: _Ink | None, fill: _Ink | None = None
) -> tuple[int | None, int | None]:
result_ink = None
result_fill = None
if ink is None and fill is None:
if self.fill:
result_fill = self.ink
else:
result_ink = self.ink
else:
if ink is not None:
if isinstance(ink, str):
ink = ImageColor.getcolor(ink, self.mode)
if self.palette and not isinstance(ink, numbers.Number):
ink = self.palette.getcolor(ink, self._image)
result_ink = self.draw.draw_ink(ink)
if fill is not None:
if isinstance(fill, str):
fill = ImageColor.getcolor(fill, self.mode)
if self.palette and not isinstance(fill, numbers.Number):
fill = self.palette.getcolor(fill, self._image)
result_fill = self.draw.draw_ink(fill)
return result_ink, result_fill
def arc(
self,
xy: Coords,
start: float,
end: float,
fill: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw an arc."""
ink, fill = self._getink(fill)
if ink is not None:
self.draw.draw_arc(xy, start, end, ink, width)
def bitmap(
self, xy: Sequence[int], bitmap: Image.Image, fill: _Ink | None = None
) -> None:
"""Draw a bitmap."""
bitmap.load()
ink, fill = self._getink(fill)
if ink is None:
ink = fill
if ink is not None:
self.draw.draw_bitmap(xy, bitmap.im, ink)
def chord(
self,
xy: Coords,
start: float,
end: float,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw a chord."""
ink, fill_ink = self._getink(outline, fill)
if fill_ink is not None:
self.draw.draw_chord(xy, start, end, fill_ink, 1)
if ink is not None and ink != fill_ink and width != 0:
self.draw.draw_chord(xy, start, end, ink, 0, width)
def ellipse(
self,
xy: Coords,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw an ellipse."""
ink, fill_ink = self._getink(outline, fill)
if fill_ink is not None:
self.draw.draw_ellipse(xy, fill_ink, 1)
if ink is not None and ink != fill_ink and width != 0:
self.draw.draw_ellipse(xy, ink, 0, width)
def circle(
self,
xy: Sequence[float],
radius: float,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw a circle given center coordinates and a radius."""
ellipse_xy = (xy[0] - radius, xy[1] - radius, xy[0] + radius, xy[1] + radius)
self.ellipse(ellipse_xy, fill, outline, width)
def line(
self,
xy: Coords,
fill: _Ink | None = None,
width: int = 0,
joint: str | None = None,
) -> None:
"""Draw a line, or a connected sequence of line segments."""
ink = self._getink(fill)[0]
if ink is not None:
self.draw.draw_lines(xy, ink, width)
if joint == "curve" and width > 4:
points: Sequence[Sequence[float]]
if isinstance(xy[0], (list, tuple)):
points = cast(Sequence[Sequence[float]], xy)
else:
points = [
cast(Sequence[float], tuple(xy[i : i + 2]))
for i in range(0, len(xy), 2)
]
for i in range(1, len(points) - 1):
point = points[i]
angles = [
math.degrees(math.atan2(end[0] - start[0], start[1] - end[1]))
% 360
for start, end in (
(points[i - 1], point),
(point, points[i + 1]),
)
]
if angles[0] == angles[1]:
# This is a straight line, so no joint is required
continue
def coord_at_angle(
coord: Sequence[float], angle: float
) -> tuple[float, ...]:
x, y = coord
angle -= 90
distance = width / 2 - 1
return tuple(
p + (math.floor(p_d) if p_d > 0 else math.ceil(p_d))
for p, p_d in (
(x, distance * math.cos(math.radians(angle))),
(y, distance * math.sin(math.radians(angle))),
)
)
flipped = (
angles[1] > angles[0] and angles[1] - 180 > angles[0]
) or (angles[1] < angles[0] and angles[1] + 180 > angles[0])
coords = [
(point[0] - width / 2 + 1, point[1] - width / 2 + 1),
(point[0] + width / 2 - 1, point[1] + width / 2 - 1),
]
if flipped:
start, end = (angles[1] + 90, angles[0] + 90)
else:
start, end = (angles[0] - 90, angles[1] - 90)
self.pieslice(coords, start - 90, end - 90, fill)
if width > 8:
# Cover potential gaps between the line and the joint
if flipped:
gap_coords = [
coord_at_angle(point, angles[0] + 90),
point,
coord_at_angle(point, angles[1] + 90),
]
else:
gap_coords = [
coord_at_angle(point, angles[0] - 90),
point,
coord_at_angle(point, angles[1] - 90),
]
self.line(gap_coords, fill, width=3)
def shape(
self,
shape: Image.core._Outline,
fill: _Ink | None = None,
outline: _Ink | None = None,
) -> None:
"""(Experimental) Draw a shape."""
shape.close()
ink, fill_ink = self._getink(outline, fill)
if fill_ink is not None:
self.draw.draw_outline(shape, fill_ink, 1)
if ink is not None and ink != fill_ink:
self.draw.draw_outline(shape, ink, 0)
def pieslice(
self,
xy: Coords,
start: float,
end: float,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw a pieslice."""
ink, fill_ink = self._getink(outline, fill)
if fill_ink is not None:
self.draw.draw_pieslice(xy, start, end, fill_ink, 1)
if ink is not None and ink != fill_ink and width != 0:
self.draw.draw_pieslice(xy, start, end, ink, 0, width)
def point(self, xy: Coords, fill: _Ink | None = None) -> None:
"""Draw one or more individual pixels."""
ink, fill = self._getink(fill)
if ink is not None:
self.draw.draw_points(xy, ink)
def polygon(
self,
xy: Coords,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw a polygon."""
ink, fill_ink = self._getink(outline, fill)
if fill_ink is not None:
self.draw.draw_polygon(xy, fill_ink, 1)
if ink is not None and ink != fill_ink and width != 0:
if width == 1:
self.draw.draw_polygon(xy, ink, 0, width)
elif self.im is not None:
# To avoid expanding the polygon outwards,
# use the fill as a mask
mask = Image.new("1", self.im.size)
mask_ink = self._getink(1)[0]
fill_im = mask.copy()
draw = Draw(fill_im)
draw.draw.draw_polygon(xy, mask_ink, 1)
ink_im = mask.copy()
draw = Draw(ink_im)
width = width * 2 - 1
draw.draw.draw_polygon(xy, mask_ink, 0, width)
mask.paste(ink_im, mask=fill_im)
im = Image.new(self.mode, self.im.size)
draw = Draw(im)
draw.draw.draw_polygon(xy, ink, 0, width)
self.im.paste(im.im, (0, 0) + im.size, mask.im)
def regular_polygon(
self,
bounding_circle: Sequence[Sequence[float] | float],
n_sides: int,
rotation: float = 0,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw a regular polygon."""
xy = _compute_regular_polygon_vertices(bounding_circle, n_sides, rotation)
self.polygon(xy, fill, outline, width)
def rectangle(
self,
xy: Coords,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
) -> None:
"""Draw a rectangle."""
ink, fill_ink = self._getink(outline, fill)
if fill_ink is not None:
self.draw.draw_rectangle(xy, fill_ink, 1)
if ink is not None and ink != fill_ink and width != 0:
self.draw.draw_rectangle(xy, ink, 0, width)
def rounded_rectangle(
self,
xy: Coords,
radius: float = 0,
fill: _Ink | None = None,
outline: _Ink | None = None,
width: int = 1,
*,
corners: tuple[bool, bool, bool, bool] | None = None,
) -> None:
"""Draw a rounded rectangle."""
if isinstance(xy[0], (list, tuple)):
(x0, y0), (x1, y1) = cast(Sequence[Sequence[float]], xy)
else:
x0, y0, x1, y1 = cast(Sequence[float], xy)
if x1 < x0:
msg = "x1 must be greater than or equal to x0"
raise ValueError(msg)
if y1 < y0:
msg = "y1 must be greater than or equal to y0"
raise ValueError(msg)
if corners is None:
corners = (True, True, True, True)
d = radius * 2
x0 = round(x0)
y0 = round(y0)
x1 = round(x1)
y1 = round(y1)
full_x, full_y = False, False
if all(corners):
full_x = d >= x1 - x0 - 1
if full_x:
# The two left and two right corners are joined
d = x1 - x0
full_y = d >= y1 - y0 - 1
if full_y:
# The two top and two bottom corners are joined
d = y1 - y0
if full_x and full_y:
# If all corners are joined, that is a circle
return self.ellipse(xy, fill, outline, width)
if d == 0 or not any(corners):
# If the corners have no curve,
# or there are no corners,
# that is a rectangle
return self.rectangle(xy, fill, outline, width)
r = int(d // 2)
ink, fill_ink = self._getink(outline, fill)
def draw_corners(pieslice: bool) -> None:
parts: tuple[tuple[tuple[float, float, float, float], int, int], ...]
if full_x:
# Draw top and bottom halves
parts = (
((x0, y0, x0 + d, y0 + d), 180, 360),
((x0, y1 - d, x0 + d, y1), 0, 180),
)
elif full_y:
# Draw left and right halves
parts = (
((x0, y0, x0 + d, y0 + d), 90, 270),
((x1 - d, y0, x1, y0 + d), 270, 90),
)
else:
# Draw four separate corners
parts = tuple(
part
for i, part in enumerate(
(
((x0, y0, x0 + d, y0 + d), 180, 270),
((x1 - d, y0, x1, y0 + d), 270, 360),
((x1 - d, y1 - d, x1, y1), 0, 90),
((x0, y1 - d, x0 + d, y1), 90, 180),
)
)
if corners[i]
)
for part in parts:
if pieslice:
self.draw.draw_pieslice(*(part + (fill_ink, 1)))
else:
self.draw.draw_arc(*(part + (ink, width)))
if fill_ink is not None:
draw_corners(True)
if full_x:
self.draw.draw_rectangle((x0, y0 + r + 1, x1, y1 - r - 1), fill_ink, 1)
else:
self.draw.draw_rectangle((x0 + r + 1, y0, x1 - r - 1, y1), fill_ink, 1)
if not full_x and not full_y:
left = [x0, y0, x0 + r, y1]
if corners[0]:
left[1] += r + 1
if corners[3]:
left[3] -= r + 1
self.draw.draw_rectangle(left, fill_ink, 1)
right = [x1 - r, y0, x1, y1]
if corners[1]:
right[1] += r + 1
if corners[2]:
right[3] -= r + 1
self.draw.draw_rectangle(right, fill_ink, 1)
if ink is not None and ink != fill_ink and width != 0:
draw_corners(False)
if not full_x:
top = [x0, y0, x1, y0 + width - 1]
if corners[0]:
top[0] += r + 1
if corners[1]:
top[2] -= r + 1
self.draw.draw_rectangle(top, ink, 1)
bottom = [x0, y1 - width + 1, x1, y1]
if corners[3]:
bottom[0] += r + 1
if corners[2]:
bottom[2] -= r + 1
self.draw.draw_rectangle(bottom, ink, 1)
if not full_y:
left = [x0, y0, x0 + width - 1, y1]
if corners[0]:
left[1] += r + 1
if corners[3]:
left[3] -= r + 1
self.draw.draw_rectangle(left, ink, 1)
right = [x1 - width + 1, y0, x1, y1]
if corners[1]:
right[1] += r + 1
if corners[2]:
right[3] -= r + 1
self.draw.draw_rectangle(right, ink, 1)
def _multiline_check(self, text: AnyStr) -> bool:
split_character = "\n" if isinstance(text, str) else b"\n"
return split_character in text
def _multiline_split(self, text: AnyStr) -> list[AnyStr]:
return text.split("\n" if isinstance(text, str) else b"\n")
def _multiline_spacing(self, font, spacing, stroke_width):
return (
self.textbbox((0, 0), "A", font, stroke_width=stroke_width)[3]
+ stroke_width
+ spacing
)
def text(
self,
xy: tuple[float, float],
text: str,
fill=None,
font: (
ImageFont.ImageFont
| ImageFont.FreeTypeFont
| ImageFont.TransposedFont
| None
) = None,
anchor=None,
spacing=4,
align="left",
direction=None,
features=None,
language=None,
stroke_width=0,
stroke_fill=None,
embedded_color=False,
*args,
**kwargs,
) -> None:
"""Draw text."""
if embedded_color and self.mode not in ("RGB", "RGBA"):
msg = "Embedded color supported only in RGB and RGBA modes"
raise ValueError(msg)
if font is None:
font = self._getfont(kwargs.get("font_size"))
if self._multiline_check(text):
return self.multiline_text(
xy,
text,
fill,
font,
anchor,
spacing,
align,
direction,
features,
language,
stroke_width,
stroke_fill,
embedded_color,
)
def getink(fill: _Ink | None) -> int:
ink, fill_ink = self._getink(fill)
if ink is None:
assert fill_ink is not None
return fill_ink
return ink
def draw_text(ink, stroke_width=0, stroke_offset=None) -> None:
mode = self.fontmode
if stroke_width == 0 and embedded_color:
mode = "RGBA"
coord = []
start = []
for i in range(2):
coord.append(int(xy[i]))
start.append(math.modf(xy[i])[0])
try:
mask, offset = font.getmask2( # type: ignore[union-attr,misc]
text,
mode,
direction=direction,
features=features,
language=language,
stroke_width=stroke_width,
anchor=anchor,
ink=ink,
start=start,
*args,
**kwargs,
)
coord = [coord[0] + offset[0], coord[1] + offset[1]]
except AttributeError:
try:
mask = font.getmask( # type: ignore[misc]
text,
mode,
direction,
features,
language,
stroke_width,
anchor,
ink,
start=start,
*args,
**kwargs,
)
except TypeError:
mask = font.getmask(text)
if stroke_offset:
coord = [coord[0] + stroke_offset[0], coord[1] + stroke_offset[1]]
if mode == "RGBA":
# font.getmask2(mode="RGBA") returns color in RGB bands and mask in A
# extract mask and set text alpha
color, mask = mask, mask.getband(3)
ink_alpha = struct.pack("i", ink)[3]
color.fillband(3, ink_alpha)
x, y = coord
if self.im is not None:
self.im.paste(
color, (x, y, x + mask.size[0], y + mask.size[1]), mask
)
else:
self.draw.draw_bitmap(coord, mask, ink)
ink = getink(fill)
if ink is not None:
stroke_ink = None
if stroke_width:
stroke_ink = getink(stroke_fill) if stroke_fill is not None else ink
if stroke_ink is not None:
# Draw stroked text
draw_text(stroke_ink, stroke_width)
# Draw normal text
draw_text(ink, 0)
else:
# Only draw normal text
draw_text(ink)
def multiline_text(
self,
xy: tuple[float, float],
text: str,
fill=None,
font: (
ImageFont.ImageFont
| ImageFont.FreeTypeFont
| ImageFont.TransposedFont
| None
) = None,
anchor=None,
spacing=4,
align="left",
direction=None,
features=None,
language=None,
stroke_width=0,
stroke_fill=None,
embedded_color=False,
*,
font_size=None,
) -> None:
if direction == "ttb":
msg = "ttb direction is unsupported for multiline text"
raise ValueError(msg)
if anchor is None:
anchor = "la"
elif len(anchor) != 2:
msg = "anchor must be a 2 character string"
raise ValueError(msg)
elif anchor[1] in "tb":
msg = "anchor not supported for multiline text"
raise ValueError(msg)
if font is None:
font = self._getfont(font_size)
widths = []
max_width: float = 0
lines = self._multiline_split(text)
line_spacing = self._multiline_spacing(font, spacing, stroke_width)
for line in lines:
line_width = self.textlength(
line, font, direction=direction, features=features, language=language
)
widths.append(line_width)
max_width = max(max_width, line_width)
top = xy[1]
if anchor[1] == "m":
top -= (len(lines) - 1) * line_spacing / 2.0
elif anchor[1] == "d":
top -= (len(lines) - 1) * line_spacing
for idx, line in enumerate(lines):
left = xy[0]
width_difference = max_width - widths[idx]
# first align left by anchor
if anchor[0] == "m":
left -= width_difference / 2.0
elif anchor[0] == "r":
left -= width_difference
# then align by align parameter
if align == "left":
pass
elif align == "center":
left += width_difference / 2.0
elif align == "right":
left += width_difference
else:
msg = 'align must be "left", "center" or "right"'
raise ValueError(msg)
self.text(
(left, top),
line,
fill,
font,
anchor,
direction=direction,
features=features,
language=language,
stroke_width=stroke_width,
stroke_fill=stroke_fill,
embedded_color=embedded_color,
)
top += line_spacing
def textlength(
self,
text: str,
font: (
ImageFont.ImageFont
| ImageFont.FreeTypeFont
| ImageFont.TransposedFont
| None
) = None,
direction=None,
features=None,
language=None,
embedded_color=False,
*,
font_size=None,
) -> float:
"""Get the length of a given string, in pixels with 1/64 precision."""
if self._multiline_check(text):
msg = "can't measure length of multiline text"
raise ValueError(msg)
if embedded_color and self.mode not in ("RGB", "RGBA"):
msg = "Embedded color supported only in RGB and RGBA modes"
raise ValueError(msg)
if font is None:
font = self._getfont(font_size)
mode = "RGBA" if embedded_color else self.fontmode
return font.getlength(text, mode, direction, features, language)
def textbbox(
self,
xy,
text,
font=None,
anchor=None,
spacing=4,
align="left",
direction=None,
features=None,
language=None,
stroke_width=0,
embedded_color=False,
*,
font_size=None,
) -> tuple[int, int, int, int]:
"""Get the bounding box of a given string, in pixels."""
if embedded_color and self.mode not in ("RGB", "RGBA"):
msg = "Embedded color supported only in RGB and RGBA modes"
raise ValueError(msg)
if font is None:
font = self._getfont(font_size)
if self._multiline_check(text):
return self.multiline_textbbox(
xy,
text,
font,
anchor,
spacing,
align,
direction,
features,
language,
stroke_width,
embedded_color,
)
mode = "RGBA" if embedded_color else self.fontmode
bbox = font.getbbox(
text, mode, direction, features, language, stroke_width, anchor
)
return bbox[0] + xy[0], bbox[1] + xy[1], bbox[2] + xy[0], bbox[3] + xy[1]
def multiline_textbbox(
self,
xy,
text,
font=None,
anchor=None,
spacing=4,
align="left",
direction=None,
features=None,
language=None,
stroke_width=0,
embedded_color=False,
*,
font_size=None,
) -> tuple[int, int, int, int]:
if direction == "ttb":
msg = "ttb direction is unsupported for multiline text"
raise ValueError(msg)
if anchor is None:
anchor = "la"
elif len(anchor) != 2:
msg = "anchor must be a 2 character string"
raise ValueError(msg)
elif anchor[1] in "tb":
msg = "anchor not supported for multiline text"
raise ValueError(msg)
if font is None:
font = self._getfont(font_size)
widths = []
max_width: float = 0
lines = self._multiline_split(text)
line_spacing = self._multiline_spacing(font, spacing, stroke_width)
for line in lines:
line_width = self.textlength(
line,
font,
direction=direction,
features=features,
language=language,
embedded_color=embedded_color,
)
widths.append(line_width)
max_width = max(max_width, line_width)
top = xy[1]
if anchor[1] == "m":
top -= (len(lines) - 1) * line_spacing / 2.0
elif anchor[1] == "d":
top -= (len(lines) - 1) * line_spacing
bbox: tuple[int, int, int, int] | None = None
for idx, line in enumerate(lines):
left = xy[0]
width_difference = max_width - widths[idx]
# first align left by anchor
if anchor[0] == "m":
left -= width_difference / 2.0
elif anchor[0] == "r":
left -= width_difference
# then align by align parameter
if align == "left":
pass
elif align == "center":
left += width_difference / 2.0
elif align == "right":
left += width_difference
else:
msg = 'align must be "left", "center" or "right"'
raise ValueError(msg)
bbox_line = self.textbbox(
(left, top),
line,
font,
anchor,
direction=direction,
features=features,
language=language,
stroke_width=stroke_width,
embedded_color=embedded_color,
)
if bbox is None:
bbox = bbox_line
else:
bbox = (
min(bbox[0], bbox_line[0]),
min(bbox[1], bbox_line[1]),
max(bbox[2], bbox_line[2]),
max(bbox[3], bbox_line[3]),
)
top += line_spacing
if bbox is None:
return xy[0], xy[1], xy[0], xy[1]
return bbox
def Draw(im: Image.Image, mode: str | None = None) -> ImageDraw:
"""
A simple 2D drawing interface for PIL images.
:param im: The image to draw in.
:param mode: Optional mode to use for color values. For RGB
images, this argument can be RGB or RGBA (to blend the
drawing into the image). For all other modes, this argument
must be the same as the image mode. If omitted, the mode
defaults to the mode of the image.
"""
try:
return getattr(im, "getdraw")(mode)
except AttributeError:
return ImageDraw(im, mode)
def getdraw(
im: Image.Image | None = None, hints: list[str] | None = None
) -> tuple[ImageDraw2.Draw | None, ModuleType]:
"""
:param im: The image to draw in.
:param hints: An optional list of hints. Deprecated.
:returns: A (drawing context, drawing resource factory) tuple.
"""
if hints is not None:
deprecate("'hints' parameter", 12)
from . import ImageDraw2
draw = ImageDraw2.Draw(im) if im is not None else None
return draw, ImageDraw2
def floodfill(
image: Image.Image,
xy: tuple[int, int],
value: float | tuple[int, ...],
border: float | tuple[int, ...] | None = None,
thresh: float = 0,
) -> None:
"""
.. warning:: This method is experimental.
Fills a bounded region with a given color.
:param image: Target image.
:param xy: Seed position (a 2-item coordinate tuple). See
:ref:`coordinate-system`.
:param value: Fill color.
:param border: Optional border value. If given, the region consists of
pixels with a color different from the border color. If not given,
the region consists of pixels having the same color as the seed
pixel.
:param thresh: Optional threshold value which specifies a maximum
tolerable difference of a pixel value from the 'background' in
order for it to be replaced. Useful for filling regions of
non-homogeneous, but similar, colors.
"""
# based on an implementation by Eric S. Raymond
# amended by yo1995 @20180806
pixel = image.load()
assert pixel is not None
x, y = xy
try:
background = pixel[x, y]
if _color_diff(value, background) <= thresh:
return # seed point already has fill color
pixel[x, y] = value
except (ValueError, IndexError):
return # seed point outside image
edge = {(x, y)}
# use a set to keep record of current and previous edge pixels
# to reduce memory consumption
full_edge = set()
while edge:
new_edge = set()
for x, y in edge: # 4 adjacent method
for s, t in ((x + 1, y), (x - 1, y), (x, y + 1), (x, y - 1)):
# If already processed, or if a coordinate is negative, skip
if (s, t) in full_edge or s < 0 or t < 0:
continue
try:
p = pixel[s, t]
except (ValueError, IndexError):
pass
else:
full_edge.add((s, t))
if border is None:
fill = _color_diff(p, background) <= thresh
else:
fill = p not in (value, border)
if fill:
pixel[s, t] = value
new_edge.add((s, t))
full_edge = edge # discard pixels processed
edge = new_edge
def _compute_regular_polygon_vertices(
bounding_circle: Sequence[Sequence[float] | float], n_sides: int, rotation: float
) -> list[tuple[float, float]]:
"""
Generate a list of vertices for a 2D regular polygon.
:param bounding_circle: The bounding circle is a sequence defined
by a point and radius. The polygon is inscribed in this circle.
(e.g. ``bounding_circle=(x, y, r)`` or ``((x, y), r)``)
:param n_sides: Number of sides
(e.g. ``n_sides=3`` for a triangle, ``6`` for a hexagon)
:param rotation: Apply an arbitrary rotation to the polygon
(e.g. ``rotation=90``, applies a 90 degree rotation)
:return: List of regular polygon vertices
(e.g. ``[(25, 50), (50, 50), (50, 25), (25, 25)]``)
How are the vertices computed?
1. Compute the following variables
- theta: Angle between the apothem & the nearest polygon vertex
- side_length: Length of each polygon edge
- centroid: Center of bounding circle (1st, 2nd elements of bounding_circle)
- polygon_radius: Polygon radius (last element of bounding_circle)
- angles: Location of each polygon vertex in polar grid
(e.g. A square with 0 degree rotation => [225.0, 315.0, 45.0, 135.0])
2. For each angle in angles, get the polygon vertex at that angle
The vertex is computed using the equation below.
X= xcos(φ) + ysin(φ)
Y= xsin(φ) + ycos(φ)
Note:
φ = angle in degrees
x = 0
y = polygon_radius
The formula above assumes rotation around the origin.
In our case, we are rotating around the centroid.
To account for this, we use the formula below
X = xcos(φ) + ysin(φ) + centroid_x
Y = xsin(φ) + ycos(φ) + centroid_y
"""
# 1. Error Handling
# 1.1 Check `n_sides` has an appropriate value
if not isinstance(n_sides, int):
msg = "n_sides should be an int" # type: ignore[unreachable]
raise TypeError(msg)
if n_sides < 3:
msg = "n_sides should be an int > 2"
raise ValueError(msg)
# 1.2 Check `bounding_circle` has an appropriate value
if not isinstance(bounding_circle, (list, tuple)):
msg = "bounding_circle should be a sequence"
raise TypeError(msg)
if len(bounding_circle) == 3:
if not all(isinstance(i, (int, float)) for i in bounding_circle):
msg = "bounding_circle should only contain numeric data"
raise ValueError(msg)
*centroid, polygon_radius = cast(List[float], list(bounding_circle))
elif len(bounding_circle) == 2 and isinstance(bounding_circle[0], (list, tuple)):
if not all(
isinstance(i, (int, float)) for i in bounding_circle[0]
) or not isinstance(bounding_circle[1], (int, float)):
msg = "bounding_circle should only contain numeric data"
raise ValueError(msg)
if len(bounding_circle[0]) != 2:
msg = "bounding_circle centre should contain 2D coordinates (e.g. (x, y))"
raise ValueError(msg)
centroid = cast(List[float], list(bounding_circle[0]))
polygon_radius = cast(float, bounding_circle[1])
else:
msg = (
"bounding_circle should contain 2D coordinates "
"and a radius (e.g. (x, y, r) or ((x, y), r) )"
)
raise ValueError(msg)
if polygon_radius <= 0:
msg = "bounding_circle radius should be > 0"
raise ValueError(msg)
# 1.3 Check `rotation` has an appropriate value
if not isinstance(rotation, (int, float)):
msg = "rotation should be an int or float" # type: ignore[unreachable]
raise ValueError(msg)
# 2. Define Helper Functions
def _apply_rotation(point: list[float], degrees: float) -> tuple[float, float]:
return (
round(
point[0] * math.cos(math.radians(360 - degrees))
- point[1] * math.sin(math.radians(360 - degrees))
+ centroid[0],
2,
),
round(
point[1] * math.cos(math.radians(360 - degrees))
+ point[0] * math.sin(math.radians(360 - degrees))
+ centroid[1],
2,
),
)
def _compute_polygon_vertex(angle: float) -> tuple[float, float]:
start_point = [polygon_radius, 0]
return _apply_rotation(start_point, angle)
def _get_angles(n_sides: int, rotation: float) -> list[float]:
angles = []
degrees = 360 / n_sides
# Start with the bottom left polygon vertex
current_angle = (270 - 0.5 * degrees) + rotation
for _ in range(0, n_sides):
angles.append(current_angle)
current_angle += degrees
if current_angle > 360:
current_angle -= 360
return angles
# 3. Variable Declarations
angles = _get_angles(n_sides, rotation)
# 4. Compute Vertices
return [_compute_polygon_vertex(angle) for angle in angles]
def _color_diff(
color1: float | tuple[int, ...], color2: float | tuple[int, ...]
) -> float:
"""
Uses 1-norm distance to calculate difference between two values.
"""
first = color1 if isinstance(color1, tuple) else (color1,)
second = color2 if isinstance(color2, tuple) else (color2,)
return sum(abs(first[i] - second[i]) for i in range(0, len(second)))