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#---------------------------------------------------------------------------------------------------------------------# | |
# Comfyroll Studio custom nodes by RockOfFire and Akatsuzi https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes | |
# for ComfyUI https://github.com/comfyanonymous/ComfyUI | |
#---------------------------------------------------------------------------------------------------------------------# | |
import math | |
def draw_circle(draw, center_x, center_y, size, aspect_ratio, color): | |
radius = size / 2 | |
draw.ellipse([(center_x - radius, center_y - radius), | |
(center_x + radius, center_y + radius)], fill=color) | |
def draw_oval(draw, center_x, center_y, size, aspect_ratio, color): | |
aspect_ratio = aspect_ratio | |
draw.ellipse([(center_x - size / 2, center_y - size / 2 / aspect_ratio), | |
(center_x + size / 2, center_y + size / 2 / aspect_ratio)], fill=color) | |
def draw_diamond(draw, center_x, center_y, size, aspect_ratio, color): | |
aspect_ratio = aspect_ratio | |
draw.polygon([(center_x, center_y - size / 2 / aspect_ratio), | |
(center_x + size / 2, center_y), | |
(center_x, center_y + size / 2 / aspect_ratio), | |
(center_x - size / 2, center_y)], fill=color) | |
def draw_square(draw, center_x, center_y, size, aspect_ratio, color): | |
draw.rectangle([(center_x - size / 2, center_y - size / 2), | |
(center_x + size / 2, center_y + size / 2)], fill=color) | |
def draw_triangle(draw, center_x, center_y, size, aspect_ratio, color): | |
draw.polygon([(center_x, center_y - size / 2), | |
(center_x + size / 2, center_y + size / 2), | |
(center_x - size / 2, center_y + size / 2)], fill=color) | |
def draw_hexagon(draw, center_x, center_y, size, aspect_ratio, color): | |
hexagon_points = [ | |
(center_x - size / 2, center_y), | |
(center_x - size / 4, center_y - size / 2), | |
(center_x + size / 4, center_y - size / 2), | |
(center_x + size / 2, center_y), | |
(center_x + size / 4, center_y + size / 2), | |
(center_x - size / 4, center_y + size / 2) | |
] | |
draw.polygon(hexagon_points, fill=color) | |
def draw_octagon(draw, center_x, center_y, size, aspect_ratio, color): | |
octagon_points = [ | |
(center_x - size / 2, center_y - size / 4), | |
(center_x - size / 4, center_y - size / 2), | |
(center_x + size / 4, center_y - size / 2), | |
(center_x + size / 2, center_y - size / 4), | |
(center_x + size / 2, center_y + size / 4), | |
(center_x + size / 4, center_y + size / 2), | |
(center_x - size / 4, center_y + size / 2), | |
(center_x - size / 2, center_y + size / 4), | |
] | |
draw.polygon(octagon_points, fill=color) | |
def draw_quarter_circle(draw, center_x, center_y, size, aspect_ratio, color): | |
draw.pieslice([(center_x - size / 2, center_y - size / 2), | |
(center_x + size / 2, center_y + size / 2)], start=0, end=90, fill=color) | |
def draw_half_circle(draw, center_x, center_y, size, aspect_ratio, color): | |
draw.pieslice([(center_x - size / 2, center_y - size / 2), | |
(center_x + size / 2, center_y + size / 2)], start=0, end=180, fill=color) | |
def draw_starburst(draw, center_x, center_y, size, aspect_ratio, color): | |
num_rays = 16 | |
for i in range(num_rays): | |
angle_ray = math.radians(i * (360 / num_rays)) | |
x_end = center_x + size / 2 * math.cos(angle_ray) | |
y_end = center_y + size / 2 * math.sin(angle_ray) | |
draw.line([(center_x, center_y), (x_end, y_end)], fill=color, width=int(size / 20)) | |
def draw_star(draw, center_x, center_y, size, aspect_ratio, color): | |
outer_radius = size / 4 | |
inner_radius = outer_radius * math.cos(math.radians(36)) / math.cos(math.radians(72)) | |
angle = -math.pi / 2 | |
star_points = [] | |
for _ in range(5): | |
x_outer = center_x + outer_radius * math.cos(angle) | |
y_outer = center_y + outer_radius * math.sin(angle) | |
star_points.extend([x_outer, y_outer]) | |
angle += math.radians(72) | |
x_inner = center_x + inner_radius * math.cos(angle) | |
y_inner = center_y + inner_radius * math.sin(angle) | |
star_points.extend([x_inner, y_inner]) | |
angle += math.radians(72) | |
draw.polygon(star_points, fill=color) | |
def draw_cross(draw, center_x, center_y, size, aspect_ratio, color): | |
# Define the points for the cross arms | |
cross_points = [ | |
(center_x - size / 6, center_y - size / 2), | |
(center_x + size / 6, center_y - size / 2), | |
(center_x + size / 6, center_y - size / 6), | |
(center_x + size / 2, center_y - size / 6), | |
(center_x + size / 2, center_y + size / 6), | |
(center_x + size / 6, center_y + size / 6), | |
(center_x + size / 6, center_y + size / 2), | |
(center_x - size / 6, center_y + size / 2), | |
(center_x - size / 6, center_y + size / 6), | |
(center_x - size / 2, center_y + size / 6), | |
(center_x - size / 2, center_y - size / 6), | |
(center_x - size / 6, center_y - size / 6), | |
] | |
draw.polygon(cross_points, fill=color) | |