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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 torch
import numpy as np
import os
import sys
import io
import folder_paths
from PIL import Image
from ..categories import icons
try:
import matplotlib.pyplot as plt
except ImportError:
import pip
pip.main(['install', 'matplotlib'])
import matplotlib.pyplot as plt
from matplotlib.patches import RegularPolygon
#---------------------------------------------------------------------------------------------------------------------#
#icons = {
# "Comfyroll/Graphics/Pattern": "🧩 Comfyroll/👾 Graphics/🌈 Pattern",
#}
# Dictionary to map color names to RGB values
color_mapping = {
"white": (255, 255, 255),
"black": (0, 0, 0),
"red": (255, 0, 0),
"green": (0, 255, 0),
"blue": (0, 0, 255),
"yellow": (255, 255, 0),
"cyan": (0, 255, 255),
"magenta": (255, 0, 255),
"orange": (255, 165, 0),
"purple": (128, 0, 128),
"pink": (255, 192, 203),
"brown": (165, 42, 42),
"gray": (128, 128, 128),
"lightgray": (211, 211, 211),
"darkgray": (169, 169, 169),
"olive": (128, 128, 0),
"lime": (0, 128, 0),
"teal": (0, 128, 128),
"navy": (0, 0, 128),
"maroon": (128, 0, 0),
"fuchsia": (255, 0, 128),
"aqua": (0, 255, 128),
"silver": (192, 192, 192),
"gold": (255, 215, 0),
"turquoise": (64, 224, 208),
"lavender": (230, 230, 250),
"violet": (238, 130, 238),
"coral": (255, 127, 80),
"indigo": (75, 0, 130),
}
COLORS = ["custom", "white", "black", "red", "green", "blue", "yellow",
"cyan", "magenta", "orange", "purple", "pink", "brown", "gray",
"lightgray", "darkgray", "olive", "lime", "teal", "navy", "maroon",
"fuchsia", "aqua", "silver", "gold", "turquoise", "lavender",
"violet", "coral", "indigo"]
STYLES = ["Accent","afmhot","autumn","binary","Blues","bone","BrBG","brg",
"BuGn","BuPu","bwr","cividis","CMRmap","cool","coolwarm","copper","cubehelix","Dark2","flag",
"gist_earth","gist_gray","gist_heat","gist_rainbow","gist_stern","gist_yarg","GnBu","gnuplot","gnuplot2","gray","Greens",
"Greys","hot","hsv","inferno","jet","magma","nipy_spectral","ocean","Oranges","OrRd",
"Paired","Pastel1","Pastel2","pink","PiYG","plasma","PRGn","prism","PuBu","PuBuGn",
"PuOr","PuRd","Purples","rainbow","RdBu","RdGy","RdPu","RdYlBu","RdYlGn","Reds","seismic",
"Set1","Set2","Set3","Spectral","spring","summer","tab10","tab20","tab20b","tab20c","terrain",
"turbo","twilight","twilight_shifted","viridis","winter","Wistia","YlGn","YlGnBu","YlOrBr","YlOrRd"]
#---------------------------------------------------------------------------------------------------------------------#
def rgb_to_hex(rgb):
r, g, b = rgb
return "#{:02X}{:02X}{:02X}".format(r, g, b)
def hex_to_rgb(hex_color):
hex_color = hex_color.lstrip('#') # Remove the '#' character, if present
r = int(hex_color[0:2], 16)
g = int(hex_color[2:4], 16)
b = int(hex_color[4:6], 16)
return (r, g, b)
def tensor2pil(image):
return Image.fromarray(np.clip(255. * image.cpu().numpy().squeeze(), 0, 255).astype(np.uint8))
def pil2tensor(image):
return torch.from_numpy(np.array(image).astype(np.float32) / 255.0).unsqueeze(0)
#---------------------------------------------------------------------------------------------------------------------#
class CR_HalftoneGrid:
@classmethod
def INPUT_TYPES(s):
return {"required": {
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"dot_style": (STYLES,),
"reverse_dot_style": (["No", "Yes"],),
"dot_frequency": ("INT", {"default": 50, "min": 1, "max":200, "step": 1}),
"background_color": (COLORS,),
"x_pos": ("FLOAT", {"default": 0.5, "min": 0, "max": 1, "step": .01}),
"y_pos": ("FLOAT", {"default": 0.5, "min": 0, "max": 1, "step": .01}),
},
"optional": {
"bg_color_hex": ("STRING", {"multiline": False, "default": "#000000"})
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "halftone"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def halftone(self, width, height, dot_style, reverse_dot_style, dot_frequency, background_color, x_pos, y_pos, bg_color_hex='#000000'):
if background_color == "custom":
bgc = bg_color_hex
else:
bgc = background_color
reverse = ""
if reverse_dot_style == "Yes":
reverse = "_r"
fig, ax = plt.subplots(figsize=(width/100,height/100))
dotsx = np.linspace(0, 1, dot_frequency)
dotsy = np.linspace(0, 1, dot_frequency)
X, Y = np.meshgrid(dotsx, dotsy)
dist = np.sqrt((X - x_pos)**2 + (Y - y_pos)**2)
fig.patch.set_facecolor(bgc)
ax.scatter(X, Y, c=dist, cmap=dot_style+reverse)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(tight=True)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-halftone-grid"
return(image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_ColorBars:
@classmethod
def INPUT_TYPES(s):
modes = ["2-color"]
return {"required": {
"mode": (modes,),
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"color_1": (COLORS,),
"color_2": (COLORS,),
"orientation": (["vertical", "horizontal", "diagonal", "alt_diagonal"],), #added 135 angle for diagonals
"bar_frequency": ("INT", {"default": 5, "min": 1, "max":200, "step": 1}),
"offset": ("FLOAT", {"default": 0, "min": 0, "max":20, "step": 0.05}),
},
"optional": {
"color1_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"color2_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, mode, width, height, color_1, color_2,
orientation, bar_frequency, offset=0,
color1_hex='#000000', color2_hex='#000000'):
# Get RGB values
if color_1 == "custom":
color1_rgb = hex_to_rgb(color1_hex)
else:
color1_rgb = color_mapping.get(color_1, (255, 255, 255)) # Default to white if the color is not found
if color_2 == "custom":
color2_rgb = hex_to_rgb(color2_hex)
else:
color2_rgb = color_mapping.get(color_2, (0, 0, 0)) # Default to black if the color is not found
canvas = np.zeros((height, width, 3), dtype=np.uint8)
bar_width = width / bar_frequency
bar_height = height / bar_frequency
offset_pixels = int(offset * max(width, height))
if orientation == "vertical":
for j in range(height):
for i in range(width):
if ((i + offset_pixels) // bar_width) % 2 == 0: # Check for even index
canvas[j, i] = color1_rgb
else:
canvas[j, i] = color2_rgb
elif orientation == "horizontal":
for j in range(height):
for i in range(width):
if ((j + offset_pixels) // bar_height) % 2 == 0: # Check for even index
canvas[j, i] = color1_rgb
else:
canvas[j, i] = color2_rgb
elif orientation == "diagonal":
# Calculate the bar width based on a 45 degree angle
bar_width = int(bar_height / np.tan(np.pi / 4)) * 2
for j in range(height):
for i in range(width):
# Calculate which diagonal bar the pixel belongs to with the offset
bar_number = (i + j + offset_pixels) // bar_width
if bar_number % 2 == 0: # Check for even bar number
canvas[j, i] = color1_rgb
else:
canvas[j, i] = color2_rgb
elif orientation == "alt_diagonal":
bar_width = int(bar_height / np.tan(np.pi / 4)) * 2
for j in range(height):
for i in range(width):
# Calculate which diagonal bar the pixel belongs to with the offset
bar_number = (i - j + width + offset_pixels) // bar_width
if bar_number % 2 == 0: # Check for even bar number
canvas[j, i] = color1_rgb
else:
canvas[j, i] = color2_rgb
fig, ax = plt.subplots(figsize=(width/100, height/100))
ax.imshow(canvas)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(tight=True)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-color-bars"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_StyleBars:
@classmethod
def INPUT_TYPES(s):
modes = ["color bars", "sin wave", "gradient bars"]
return {"required": {
"mode": (modes,),
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"bar_style": (STYLES,),
"orientation": (["vertical", "horizontal", ],),
"bar_frequency": ("INT", {"default": 5, "min": 1, "max":200, "step": 1}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, mode, width, height, bar_style, orientation, bar_frequency):
# Create a horizontal or vertical bar depending on the orientation
if orientation == "vertical":
x = np.linspace(0, 1, width)
y = np.zeros((height, width))
elif orientation == "horizontal":
x = np.zeros((height, width))
y = np.linspace(0, 1, height)
# Create a grid of colors for the bar
X, Y = np.meshgrid(x, y)
if mode == "color bars":
bar_width = 1 / bar_frequency
if orientation == "vertical":
colors = (X // bar_width) % 2
elif orientation == "horizontal":
colors = (Y // bar_width) % 2
elif mode == "sin wave":
if orientation == "vertical":
colors = np.sin(2 * np.pi * bar_frequency * X)
elif orientation == "horizontal":
colors = np.sin(2 * np.pi * bar_frequency * Y)
elif mode == "gradient bars":
if orientation == "vertical":
colors = (X * bar_frequency * 2) % 2
elif orientation == "horizontal":
colors = (Y * bar_frequency * 2) % 2
fig, ax = plt.subplots(figsize=(width/100, height/100))
ax.imshow(colors, cmap=bar_style, aspect='auto')
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(tight=True)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-style-bars"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_ColorGradient:
@classmethod
def INPUT_TYPES(s):
return {"required": {
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"start_color": (COLORS,),
"end_color": (COLORS,),
"gradient_distance": ("FLOAT", {"default": 1, "min": 0, "max": 2, "step": 0.05}),
"linear_transition": ("FLOAT", {"default": 0.5, "min": 0, "max": 1, "step": 0.05}),
"orientation": (["vertical", "horizontal", ],),
},
"optional": {
"start_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"end_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, width, height, start_color, end_color, orientation,
linear_transition=0.5, gradient_distance=1,
start_color_hex='#000000', end_color_hex='#000000'): # Default to .5 if the value is not found
# Get RGB values
if start_color == "custom":
color1_rgb = hex_to_rgb(start_color_hex)
else:
color1_rgb = color_mapping.get(start_color, (255, 255, 255)) # Default to white if the color is not found
if end_color == "custom":
color2_rgb = hex_to_rgb(end_color_hex)
else:
color2_rgb = color_mapping.get(end_color, (0, 0, 0)) # Default to black if the color is not found
# Create a blank canvas
canvas = np.zeros((height, width, 3), dtype=np.uint8)
transition_pixel = int(linear_transition * (width if orientation == 'horizontal' else height)) #getting center point for gradient
def get_gradient_value(pos, length, linear_transition, gradient_distance): #getting the distance we use to apply gradient
# Calculate the start and end of the transition
transition_length = length * gradient_distance
transition_start = linear_transition * length - transition_length / 2
transition_end = linear_transition * length + transition_length / 2
# Return the gradient value based on position
if pos < transition_start:
return 0
elif pos > transition_end:
return 1
else:
return (pos - transition_start) / transition_length
if orientation == 'horizontal':
# Define the x-values for interpolation
x = [0, width * linear_transition - 0.5 * width * gradient_distance, width * linear_transition + 0.5 * width * gradient_distance, width]
# Define the y-values for interpolation (t-values)
y = [0, 0, 1, 1]
# Interpolate
t_values = np.interp(np.arange(width), x, y)
for i, t in enumerate(t_values):
interpolated_color = [int(c1 * (1 - t) + c2 * t) for c1, c2 in zip(color1_rgb, color2_rgb)]
canvas[:, i] = interpolated_color
elif orientation == 'vertical':
# Define the x-values for interpolation
x = [0, height * linear_transition - 0.5 * height * gradient_distance, height * linear_transition + 0.5 * height * gradient_distance, height]
# Define the y-values for interpolation (t-values)
y = [0, 0, 1, 1]
# Interpolate
t_values = np.interp(np.arange(height), x, y)
for j, t in enumerate(t_values):
interpolated_color = [int(c1 * (1 - t) + c2 * t) for c1, c2 in zip(color1_rgb, color2_rgb)]
canvas[j, :] = interpolated_color
fig, ax = plt.subplots(figsize=(width / 100, height / 100))
ax.imshow(canvas)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(tight=True)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-color-gradient"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_RadialGradient:
@classmethod
def INPUT_TYPES(s):
return {"required": {
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"start_color": (COLORS,),
"end_color": (COLORS,),
"gradient_distance": ("FLOAT", {"default": 1, "min": 0, "max": 2, "step": 0.05}),
"radial_center_x": ("FLOAT", {"default": 0.5, "min": 0, "max": 1, "step": 0.05}),
"radial_center_y": ("FLOAT", {"default": 0.5, "min": 0, "max": 1, "step": 0.05}),
},
"optional": {
"start_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"end_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_Help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, width, height, start_color, end_color,
radial_center_x=0.5, radial_center_y=0.5, gradient_distance=1,
start_color_hex='#000000', end_color_hex='#000000'): # Default to .5 if the value is not found
# Get RGB values
if start_color == "custom":
color1_rgb = hex_to_rgb(start_color_hex)
else:
color1_rgb = color_mapping.get(start_color, (255, 255, 255)) # Default to white if the color is not found
if end_color == "custom":
color2_rgb = hex_to_rgb(end_color_hex)
else:
color2_rgb = color_mapping.get(end_color, (0, 0, 0)) # Default to black if the color is not found
# Create a blank canvas
canvas = np.zeros((height, width, 3), dtype=np.uint8)
center_x = int(radial_center_x * width)
center_y = int(radial_center_y * height)
# Computation for max_distance
max_distance = (np.sqrt(max(center_x, width - center_x)**2 + max(center_y, height - center_y)**2))*gradient_distance
for i in range(width):
for j in range(height):
distance_to_center = np.sqrt((i - center_x) ** 2 + (j - center_y) ** 2)
t = distance_to_center / max_distance
# Ensure t is between 0 and 1
t = max(0, min(t, 1))
interpolated_color = [int(c1 * (1 - t) + c2 * t) for c1, c2 in zip(color1_rgb, color2_rgb)]
canvas[j, i] = interpolated_color
fig, ax = plt.subplots(figsize=(width / 100, height / 100))
ax.imshow(canvas)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(tight=True)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-radial-gradiant"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_CheckerPattern:
@classmethod
def INPUT_TYPES(s):
modes = ["regular", "stepped"]
return {"required": {
"mode": (modes,),
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"color_1": (COLORS,),
"color_2": (COLORS,),
"grid_frequency": ("INT", {"default": 8, "min": 1, "max": 200, "step": 1}),
"step": ("INT", {"default": 2, "min": 2, "max": 200, "step": 1}),
},
"optional": {
"color1_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"color2_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, mode, width, height, color_1, color_2,
grid_frequency, step,
color1_hex='#000000', color2_hex='#000000'):
# Get RGB values
if color_1 == "custom":
color1_rgb = hex_to_rgb(color1_hex)
else:
color1_rgb = color_mapping.get(color_1, (255, 255, 255)) # Default to white if the color is not found
if color_2 == "custom":
color2_rgb = hex_to_rgb(color2_hex)
else:
color2_rgb = color_mapping.get(color_2, (0, 0, 0)) # Default to black if the color is not found
# Create a blank canvas
canvas = np.zeros((height, width, 3), dtype=np.uint8)
grid_size = width / grid_frequency
for i in range(width):
for j in range(height):
if mode == "regular":
if (i // grid_size) % 2 == (j // grid_size) % 2:
canvas[j, i] = color1_rgb
else:
canvas[j, i] = color2_rgb
elif mode == "stepped":
if (i // grid_size) % step != (j // grid_size) % step:
canvas[j, i] = color1_rgb
else:
canvas[j, i] = color2_rgb
fig, ax = plt.subplots(figsize=(width/100, height/100))
ax.imshow(canvas)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(tight=True)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-checker-pattern"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_Polygons:
@classmethod
def INPUT_TYPES(s):
modes = ["hexagons", "triangles"]
return {"required": {
"mode": (modes,),
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"rows": ("INT", {"default": 5, "min": 1, "max": 512}),
"columns": ("INT", {"default": 5, "min": 1, "max": 512}),
"face_color": (COLORS,),
"background_color": (COLORS,),
"line_color": (COLORS,),
"line_width": ("INT", {"default": 2, "min": 0, "max": 512}),
},
"optional": {
"face_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"bg_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"line_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, mode, width, height, rows, columns,
face_color, background_color, line_color, line_width,
face_color_hex='#000000', bg_color_hex='#000000', line_color_hex='#000000'):
# Get RGB values
if face_color == "custom":
face_color = face_color_hex
if line_color == "custom":
line_color = line_color_hex
if background_color == "custom":
background_color = bg_color_hex
fig, ax = plt.subplots(figsize=(width/100, height/100))
fig.set_facecolor(background_color)
plt.xlim(0, width/100)
plt.ylim(0, height/100)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(False)
# Get polygon shape
if mode == "hexagons":
vertices = 6
elif mode == "triangles":
vertices = 3
# Define the height and width of a hexagon
cell_width = (width/100) / columns
cell_height = (width/height) * np.sqrt(3) * (height/100) / (2 * columns)
for row in range(rows + 2):
for col in range(columns + 2):
x = col * cell_width
y = row * cell_height
# Shift every other row
if row % 2 == 1:
x += cell_width / 2
# Create a hexagon as a polygon patch
hexagon = RegularPolygon((x, y), numVertices=vertices, radius=cell_width/1.732, edgecolor=line_color, linewidth=line_width, facecolor=face_color)
ax.add_patch(hexagon)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-polygons"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_StarburstLines:
@classmethod
def INPUT_TYPES(s):
return {"required": {
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"num_lines": ("INT", {"default": 6, "min": 1, "max": 500}),
"line_length": ("FLOAT", {"default": 5, "min": 0, "max": 100, "step": 0.1}),
"line_width": ("INT", {"default": 5, "min": 1, "max": 512}),
"line_color": (COLORS,),
"background_color": (COLORS,),
"center_x": ("INT", {"default": 0, "min": 0, "max": 1024}),
"center_y": ("INT", {"default": 0, "min": 0, "max": 1024}),
"rotation": ("FLOAT", {"default": 0, "min": 0, "max": 720}),
},
"optional": {
"line_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"bg_color_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, width, height, num_lines, line_length, line_width, line_color, background_color,
center_x, center_y, rotation=0,
line_color_hex='#000000', bg_color_hex='#000000'):
if line_color == "custom":
line_color = line_color_hex
else:
line_color = line_color
if background_color == "custom":
bgc = bg_color_hex
else:
bgc = background_color
# Define the angle for the spokes in the starburst
angle = 360 / num_lines
# Set up the plot
fig, ax = plt.subplots(figsize=(width/100,height/100))
plt.xlim(-width/100, width/100)
plt.ylim(-height/100, height/100)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(False)
# Coordinates of the central point
center_x = center_x/100
center_y = center_y/100
# Draw the starburst lines
for i in range(num_lines):
# Calculate the endpoint of each line
x_unrotated = center_x + line_length * np.cos(np.radians(i * angle))
y_unrotated = center_y + line_length * np.sin(np.radians(i * angle))
# Apply rotation transformation
x = center_x + x_unrotated * np.cos(np.radians(rotation)) - y_unrotated * np.sin(np.radians(rotation))
y = center_y + x_unrotated * np.sin(np.radians(rotation)) + y_unrotated * np.cos(np.radians(rotation))
# Plot the line
fig.patch.set_facecolor(bgc)
ax.plot([center_x, x], [center_y, y], color=line_color, linewidth=line_width)
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-starburst-lines"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
class CR_StarburstColors:
@classmethod
def INPUT_TYPES(s):
return {"required": {
"width": ("INT", {"default": 512, "min": 64, "max": 4096}),
"height": ("INT", {"default": 512, "min": 64, "max": 4096}),
"num_triangles": ("INT", {"default": 6, "min": 1, "max": 512}),
"color_1": (COLORS,),
"color_2": (COLORS,),
"center_x": ("INT", {"default": 0, "min": 0, "max": 512}),
"center_y": ("INT", {"default": 0, "min": 0, "max": 512}),
"rotation": ("FLOAT", {"default": 0, "min": 0, "max": 720}),
"bbox_factor": ("FLOAT", {"default": 2, "min": 0, "max": 2, "step": .01}),
},
"optional": {
"color1_hex": ("STRING", {"multiline": False, "default": "#000000"}),
"color2_hex": ("STRING", {"multiline": False, "default": "#000000"}),
}
}
RETURN_TYPES = ("IMAGE", "STRING", )
RETURN_NAMES = ("IMAGE", "show_help", )
FUNCTION = "draw"
CATEGORY = icons.get("Comfyroll/Graphics/Pattern")
def draw(self, width, height, num_triangles, color_1, color_2,
center_x, center_y, bbox_factor, rotation=0,
color1_hex='#000000', color2_hex='#000000'):
# Get RGB values for the text color
if color_1 == "custom":
color_1 = color1_hex
else:
color_1 = color_1
if color_2 == "custom":
color_2 = color2_hex
else:
color_2 = color_2
# Set up the plot
fig, ax = plt.subplots()
x = width/100
y = height/100
fig, ax = plt.subplots(figsize=(x,y))
plt.xlim(-x/2, x/2)
plt.ylim(-y/2, y/2)
plt.axis('off')
plt.tight_layout(pad=0, w_pad=0, h_pad=0)
plt.autoscale(False)
# Set the size of the starburst bounding box in x and y dimensions
box_width = bbox_factor * x
box_height = bbox_factor * y
# Initialize a color list for alternating colors
colors = [color_1, color_2]
tri = num_triangles
# Draw the starburst triangles with alternating colors and square pattern
for i in range(tri):
# Calculate the endpoints of the triangle with varying length
x1 = center_x/100
y1 = center_y/100
x2_unrotated = (box_width / 2) * np.cos(np.radians(i * 360 / tri))
y2_unrotated = (box_height / 2) * np.sin(np.radians(i * 360 / tri))
x3_unrotated = (box_width / 2) * np.cos(np.radians((i + 1) * 360 / tri))
y3_unrotated = (box_height / 2) * np.sin(np.radians((i + 1) * 360 / tri))
#apply rotation transform
x2 = x2_unrotated * np.cos(np.radians(rotation)) - y2_unrotated * np.sin(np.radians(rotation))
y2 = x2_unrotated * np.sin(np.radians(rotation)) + y2_unrotated * np.cos(np.radians(rotation))
x3 = x3_unrotated * np.cos(np.radians(rotation)) - y3_unrotated * np.sin(np.radians(rotation))
y3 = x3_unrotated * np.sin(np.radians(rotation)) + y3_unrotated * np.cos(np.radians(rotation))
# Plot the triangle with alternating colors
ax.fill([x1, x2, x3, x1], [y1, y2, y3, y1], color=colors[i % 2])
img_buf = io.BytesIO()
plt.savefig(img_buf, format='png')
img = Image.open(img_buf)
image_out = pil2tensor(img.convert("RGB"))
show_help = "https://github.com/Suzie1/ComfyUI_Comfyroll_CustomNodes/wiki/Pattern-Nodes#cr-starburst-colors"
return (image_out, show_help, )
#---------------------------------------------------------------------------------------------------------------------#
# MAPPINGS
#---------------------------------------------------------------------------------------------------------------------#
# For reference only, actual mappings are in __init__.py
'''
NODE_CLASS_MAPPINGS = {
"CR Color Bars": CR_ColorBars,
"CR Style Bars": CR_StyleBars,
"CR Checker Pattern": CR_CheckerPattern,
"CR Polygons":CR_Polygons,
"CR Halftone Grid": CR_HalftoneGrid,
"CR Color Gradient": CR_ColorGradient,
"CR Radial Gradient": CR_RadialGradient,
"CR Overlay Text": CR_OverlayText,
"CR Starburst Lines": CR_StarburstLines,
"CR Starburst Colors": CR_StarburstColors,
}
'''
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