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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 typing import Sequence, cast | |
from . import Image, ImageColor | |
from ._typing import Coords | |
""" | |
A simple 2D drawing interface for PIL images. | |
<p> | |
Application code should use the <b>Draw</b> factory, instead of | |
directly. | |
""" | |
class ImageDraw: | |
font = 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): | |
""" | |
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): | |
if font_size is not None: | |
from . import ImageFont | |
font = ImageFont.load_default(font_size) | |
else: | |
font = self.getfont() | |
return font | |
def _getink(self, ink, fill=None) -> tuple[int | None, int | None]: | |
if ink is None and fill is None: | |
if self.fill: | |
fill = self.ink | |
else: | |
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) | |
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) | |
fill = self.draw.draw_ink(fill) | |
return ink, fill | |
def arc(self, xy: Coords, start, end, fill=None, width=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, fill=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, end, fill=None, outline=None, width=1) -> None: | |
"""Draw a chord.""" | |
ink, fill = self._getink(outline, fill) | |
if fill is not None: | |
self.draw.draw_chord(xy, start, end, fill, 1) | |
if ink is not None and ink != fill and width != 0: | |
self.draw.draw_chord(xy, start, end, ink, 0, width) | |
def ellipse(self, xy: Coords, fill=None, outline=None, width=1) -> None: | |
"""Draw an ellipse.""" | |
ink, fill = self._getink(outline, fill) | |
if fill is not None: | |
self.draw.draw_ellipse(xy, fill, 1) | |
if ink is not None and ink != fill and width != 0: | |
self.draw.draw_ellipse(xy, ink, 0, width) | |
def line(self, xy: Coords, fill=None, width=0, joint=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, angle): | |
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, fill=None, outline=None) -> None: | |
"""(Experimental) Draw a shape.""" | |
shape.close() | |
ink, fill = self._getink(outline, fill) | |
if fill is not None: | |
self.draw.draw_outline(shape, fill, 1) | |
if ink is not None and ink != fill: | |
self.draw.draw_outline(shape, ink, 0) | |
def pieslice( | |
self, xy: Coords, start, end, fill=None, outline=None, width=1 | |
) -> None: | |
"""Draw a pieslice.""" | |
ink, fill = self._getink(outline, fill) | |
if fill is not None: | |
self.draw.draw_pieslice(xy, start, end, fill, 1) | |
if ink is not None and ink != fill and width != 0: | |
self.draw.draw_pieslice(xy, start, end, ink, 0, width) | |
def point(self, xy: Coords, fill=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=None, outline=None, width=1) -> None: | |
"""Draw a polygon.""" | |
ink, fill = self._getink(outline, fill) | |
if fill is not None: | |
self.draw.draw_polygon(xy, fill, 1) | |
if ink is not None and ink != fill 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, n_sides, rotation=0, fill=None, outline=None, width=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=None, outline=None, width=1) -> None: | |
"""Draw a rectangle.""" | |
ink, fill = self._getink(outline, fill) | |
if fill is not None: | |
self.draw.draw_rectangle(xy, fill, 1) | |
if ink is not None and ink != fill and width != 0: | |
self.draw.draw_rectangle(xy, ink, 0, width) | |
def rounded_rectangle( | |
self, xy: Coords, radius=0, fill=None, outline=None, width=1, *, corners=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 = d // 2 | |
ink, fill = self._getink(outline, fill) | |
def draw_corners(pieslice) -> 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, 1))) | |
else: | |
self.draw.draw_arc(*(part + (ink, width))) | |
if fill is not None: | |
draw_corners(True) | |
if full_x: | |
self.draw.draw_rectangle((x0, y0 + r + 1, x1, y1 - r - 1), fill, 1) | |
else: | |
self.draw.draw_rectangle((x0 + r + 1, y0, x1 - r - 1, y1), fill, 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, 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, 1) | |
if ink is not None and ink != fill 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) -> bool: | |
split_character = "\n" if isinstance(text, str) else b"\n" | |
return split_character in text | |
def _multiline_split(self, text) -> list[str | bytes]: | |
split_character = "\n" if isinstance(text, str) else b"\n" | |
return text.split(split_character) | |
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, | |
text, | |
fill=None, | |
font=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, fill = self._getink(fill) | |
if ink is None: | |
return fill | |
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( | |
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( | |
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, | |
text, | |
fill=None, | |
font=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 = 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, | |
font=None, | |
direction=None, | |
features=None, | |
language=None, | |
embedded_color=False, | |
*, | |
font_size=None, | |
): | |
"""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 = 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, 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 im.getdraw(mode) | |
except AttributeError: | |
return ImageDraw(im, mode) | |
# experimental access to the outline API | |
try: | |
Outline = Image.core.outline | |
except AttributeError: | |
Outline = None | |
def getdraw(im=None, hints=None): | |
""" | |
(Experimental) A more advanced 2D drawing interface for PIL images, | |
based on the WCK interface. | |
:param im: The image to draw in. | |
:param hints: An optional list of hints. | |
:returns: A (drawing context, drawing resource factory) tuple. | |
""" | |
# FIXME: this needs more work! | |
# FIXME: come up with a better 'hints' scheme. | |
handler = None | |
if not hints or "nicest" in hints: | |
try: | |
from . import _imagingagg as handler | |
except ImportError: | |
pass | |
if handler is None: | |
from . import ImageDraw2 as handler | |
if im: | |
im = handler.Draw(im) | |
return im, handler | |
def floodfill(image: Image.Image, xy, value, border=None, thresh=0) -> None: | |
""" | |
(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() | |
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, n_sides, rotation | |
) -> list[tuple[float, float]]: | |
""" | |
Generate a list of vertices for a 2D regular polygon. | |
:param bounding_circle: The bounding circle is a tuple 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" | |
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: | |
*centroid, polygon_radius = bounding_circle | |
elif len(bounding_circle) == 2: | |
centroid, polygon_radius = bounding_circle | |
else: | |
msg = ( | |
"bounding_circle should contain 2D coordinates " | |
"and a radius (e.g. (x, y, r) or ((x, y), r) )" | |
) | |
raise ValueError(msg) | |
if not all(isinstance(i, (int, float)) for i in (*centroid, polygon_radius)): | |
msg = "bounding_circle should only contain numeric data" | |
raise ValueError(msg) | |
if not len(centroid) == 2: | |
msg = "bounding_circle centre should contain 2D coordinates (e.g. (x, y))" | |
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" | |
raise ValueError(msg) | |
# 2. Define Helper Functions | |
def _apply_rotation(point: list[float], degrees: float) -> tuple[int, int]: | |
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[int, int]: | |
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, color2: float | tuple[int, ...]) -> float: | |
""" | |
Uses 1-norm distance to calculate difference between two values. | |
""" | |
if isinstance(color2, tuple): | |
return sum(abs(color1[i] - color2[i]) for i in range(0, len(color2))) | |
else: | |
return abs(color1 - color2) | |