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from email.mime import image
import torch
import base64
import gradio as gr
import numpy as np
from PIL import Image,ImageOps,ImageDraw, ImageFont
from io import BytesIO
import random
MAX_COLORS = 12
def get_random_bool():
return random.choice([True, False])
def add_white_border(input_image, border_width=10):
"""
为PIL图像添加指定宽度的白色边框。
:param input_image: PIL图像对象
:param border_width: 边框宽度(单位:像素)
:return: 带有白色边框的PIL图像对象
"""
border_color = 'white' # 白色边框
# 添加边框
img_with_border = ImageOps.expand(input_image, border=border_width, fill=border_color)
return img_with_border
def process_mulline_text(draw, text, font, max_width):
"""
Draw the text on an image with word wrapping.
"""
lines = [] # Store the lines of text here
words = text.split()
# Start building lines of text, and wrap when necessary
current_line = ""
for word in words:
test_line = f"{current_line} {word}".strip()
# Check the width of the line with this word added
width, _ = draw.textsize(test_line, font=font)
if width <= max_width:
# If it fits, add this word to the current line
current_line = test_line
else:
# If not, store the line and start a new one
lines.append(current_line)
current_line = word
# Add the last line
lines.append(current_line)
return lines
def add_caption(image, text, position = "bottom-mid", font = None, text_color= 'black', bg_color = (255, 255, 255) , bg_opacity = 200):
if text == "":
return image
image = image.convert("RGBA")
draw = ImageDraw.Draw(image)
width, height = image.size
lines = process_mulline_text(draw,text,font,width)
text_positions = []
maxwidth = 0
for ind, line in enumerate(lines[::-1]):
text_width, text_height = draw.textsize(line, font=font)
if position == 'bottom-right':
text_position = (width - text_width - 10, height - (text_height + 20))
elif position == 'bottom-left':
text_position = (10, height - (text_height + 20))
elif position == 'bottom-mid':
text_position = ((width - text_width) // 2, height - (text_height + 20) ) # 居中文本
height = text_position[1]
maxwidth = max(maxwidth,text_width)
text_positions.append(text_position)
rectpos = (width - maxwidth) // 2
rectangle_position = [rectpos - 5, text_positions[-1][1] - 5, rectpos + maxwidth + 5, text_positions[0][1] + text_height + 5]
image_with_transparency = Image.new('RGBA', image.size)
draw_with_transparency = ImageDraw.Draw(image_with_transparency)
draw_with_transparency.rectangle(rectangle_position, fill=bg_color + (bg_opacity,))
image.paste(Image.alpha_composite(image.convert('RGBA'), image_with_transparency))
print(ind,text_position)
draw = ImageDraw.Draw(image)
for ind, line in enumerate(lines[::-1]):
text_position = text_positions[ind]
draw.text(text_position, line, fill=text_color, font=font)
return image.convert('RGB')
def get_comic(images,types = "4panel",captions = [],font = None,pad_image = None):
if pad_image == None:
pad_image = Image.open("./images/pad_images.png")
if font == None:
font = ImageFont.truetype("./fonts/Inkfree.ttf", int(30 * images[0].size[1] / 1024))
if types == "No typesetting (default)":
return images
elif types == "Four Pannel":
return get_comic_4panel(images,captions,font,pad_image)
else: # "Classic Comic Style"
return get_comic_classical(images,captions,font,pad_image)
def get_caption_group(images_groups,captions = []):
caption_groups = []
for i in range(len(images_groups)):
length = len(images_groups[i])
caption_groups.append(captions[:length])
captions = captions[length:]
if len(caption_groups[-1]) < len(images_groups[-1]):
caption_groups[-1] = caption_groups[-1] + [""] * (len(images_groups[-1]) - len(caption_groups[-1]))
return caption_groups
def get_comic_classical(images,captions = None,font = None,pad_image = None):
if pad_image == None:
raise ValueError("pad_image is None")
images = [add_white_border(image) for image in images]
pad_image = pad_image.resize(images[0].size, Image.ANTIALIAS)
images_groups = distribute_images2(images,pad_image)
print(images_groups)
if captions != None:
captions_groups = get_caption_group(images_groups,captions)
# print(images_groups)
row_images = []
for ind, img_group in enumerate(images_groups):
row_images.append(get_row_image2(img_group ,captions= captions_groups[ind] if captions != None else None,font = font))
return [combine_images_vertically_with_resize(row_images)]
def get_comic_4panel(images,captions = [],font = None,pad_image = None):
if pad_image == None:
raise ValueError("pad_image is None")
pad_image = pad_image.resize(images[0].size, Image.ANTIALIAS)
images = [add_white_border(image) for image in images]
assert len(captions) == len(images)
for i,caption in enumerate(captions):
images[i] = add_caption(images[i],caption,font = font)
images_nums = len(images)
pad_nums = int((4 - images_nums % 4) % 4)
images = images + [pad_image for _ in range(pad_nums)]
comics = []
assert len(images)%4 == 0
for i in range(len(images)//4):
comics.append(combine_images_vertically_with_resize([combine_images_horizontally(images[i*4:i*4+2]), combine_images_horizontally(images[i*4+2:i*4+4])]))
return comics
def get_row_image(images):
row_image_arr = []
if len(images)>3:
stack_img_nums = (len(images) - 2)//2
else:
stack_img_nums = 0
while(len(images)>0):
if stack_img_nums <=0:
row_image_arr.append(images[0])
images = images[1:]
elif len(images)>stack_img_nums*2:
if get_random_bool():
row_image_arr.append(concat_images_vertically_and_scale(images[:2]))
images = images[2:]
stack_img_nums -=1
else:
row_image_arr.append(images[0])
images = images[1:]
else:
row_image_arr.append(concat_images_vertically_and_scale(images[:2]))
images = images[2:]
stack_img_nums-=1
return combine_images_horizontally(row_image_arr)
def get_row_image2(images,captions = None, font = None):
row_image_arr = []
if len(images)== 6:
sequence_list = [1,1,2,2]
elif len(images)== 4:
sequence_list = [1,1,2]
else:
raise ValueError("images nums is not 4 or 6 found",len(images))
random.shuffle(sequence_list)
index = 0
for length in sequence_list:
if length == 1:
if captions != None:
images_tmp = add_caption(images[0],text = captions[index],font= font)
else:
images_tmp = images[0]
row_image_arr.append( images_tmp)
images = images[1:]
index +=1
elif length == 2:
row_image_arr.append(concat_images_vertically_and_scale(images[:2]))
images = images[2:]
index +=2
return combine_images_horizontally(row_image_arr)
def concat_images_vertically_and_scale(images,scale_factor=2):
# 加载所有图像
# 确保所有图像的宽度一致
widths = [img.width for img in images]
if not all(width == widths[0] for width in widths):
raise ValueError('All images must have the same width.')
# 计算总高度
total_height = sum(img.height for img in images)
# 创建新的图像,宽度与原图相同,高度为所有图像高度之和
max_width = max(widths)
concatenated_image = Image.new('RGB', (max_width, total_height))
# 竖直拼接图像
current_height = 0
for img in images:
concatenated_image.paste(img, (0, current_height))
current_height += img.height
# 缩放图像为1/n高度
new_height = concatenated_image.height // scale_factor
new_width = concatenated_image.width // scale_factor
resized_image = concatenated_image.resize((new_width, new_height), Image.ANTIALIAS)
return resized_image
def combine_images_horizontally(images):
# 读取所有图片并存入列表
# 获取每幅图像的宽度和高度
widths, heights = zip(*(i.size for i in images))
# 计算总宽度和最大高度
total_width = sum(widths)
max_height = max(heights)
# 创建新的空白图片,用于拼接
new_im = Image.new('RGB', (total_width, max_height))
# 将图片横向拼接
x_offset = 0
for im in images:
new_im.paste(im, (x_offset, 0))
x_offset += im.width
return new_im
def combine_images_vertically_with_resize(images):
# 获取所有图片的宽度和高度
widths, heights = zip(*(i.size for i in images))
# 确定新图片的宽度,即所有图片中最小的宽度
min_width = min(widths)
# 调整图片尺寸以保持宽度一致,长宽比不变
resized_images = []
for img in images:
# 计算新高度保持图片长宽比
new_height = int(min_width * img.height / img.width)
# 调整图片大小
resized_img = img.resize((min_width, new_height), Image.ANTIALIAS)
resized_images.append(resized_img)
# 计算所有调整尺寸后图片的总高度
total_height = sum(img.height for img in resized_images)
# 创建一个足够宽和高的新图片对象
new_im = Image.new('RGB', (min_width, total_height))
# 竖直拼接图片
y_offset = 0
for im in resized_images:
new_im.paste(im, (0, y_offset))
y_offset += im.height
return new_im
def distribute_images2(images, pad_image):
groups = []
remaining = len(images)
if len(images) <= 8:
group_sizes = [4]
else:
group_sizes = [4, 6]
size_index = 0
while remaining > 0:
size = group_sizes[size_index%len(group_sizes)]
if remaining < size and remaining < min(group_sizes):
size = min(group_sizes)
if remaining > size:
new_group = images[-remaining: -remaining + size]
else:
new_group = images[-remaining:]
groups.append(new_group)
size_index += 1
remaining -= size
print(remaining,groups)
groups[-1] = groups[-1] + [pad_image for _ in range(-remaining)]
return groups
def distribute_images(images, group_sizes=(4, 3, 2)):
groups = []
remaining = len(images)
while remaining > 0:
# 优先分配最大组(4张图片),再考虑3张,最后处理2张
for size in sorted(group_sizes, reverse=True):
# 如果剩下的图片数量大于等于当前组大小,或者为图片总数时(也就是第一次迭代)
# 开始创建新组
if remaining >= size or remaining == len(images):
if remaining > size:
new_group = images[-remaining: -remaining + size]
else:
new_group = images[-remaining:]
groups.append(new_group)
remaining -= size
break
# 如果剩下的图片少于最小的组大小(2张)并且已经有组了,就把剩下的图片加到最后一个组
elif remaining < min(group_sizes) and groups:
groups[-1].extend(images[-remaining:])
remaining = 0
return groups
def create_binary_matrix(img_arr, target_color):
mask = np.all(img_arr == target_color, axis=-1)
binary_matrix = mask.astype(int)
return binary_matrix
def preprocess_mask(mask_, h, w, device):
mask = np.array(mask_)
mask = mask.astype(np.float32)
mask = mask[None, None]
mask[mask < 0.5] = 0
mask[mask >= 0.5] = 1
mask = torch.from_numpy(mask).to(device)
mask = torch.nn.functional.interpolate(mask, size=(h, w), mode='nearest')
return mask
def process_sketch(canvas_data):
binary_matrixes = []
base64_img = canvas_data['image']
image_data = base64.b64decode(base64_img.split(',')[1])
image = Image.open(BytesIO(image_data)).convert("RGB")
im2arr = np.array(image)
colors = [tuple(map(int, rgb[4:-1].split(','))) for rgb in canvas_data['colors']]
colors_fixed = []
r, g, b = 255, 255, 255
binary_matrix = create_binary_matrix(im2arr, (r,g,b))
binary_matrixes.append(binary_matrix)
binary_matrix_ = np.repeat(np.expand_dims(binary_matrix, axis=(-1)), 3, axis=(-1))
colored_map = binary_matrix_*(r,g,b) + (1-binary_matrix_)*(50,50,50)
colors_fixed.append(gr.update(value=colored_map.astype(np.uint8)))
for color in colors:
r, g, b = color
if any(c != 255 for c in (r, g, b)):
binary_matrix = create_binary_matrix(im2arr, (r,g,b))
binary_matrixes.append(binary_matrix)
binary_matrix_ = np.repeat(np.expand_dims(binary_matrix, axis=(-1)), 3, axis=(-1))
colored_map = binary_matrix_*(r,g,b) + (1-binary_matrix_)*(50,50,50)
colors_fixed.append(gr.update(value=colored_map.astype(np.uint8)))
visibilities = []
colors = []
for n in range(MAX_COLORS):
visibilities.append(gr.update(visible=False))
colors.append(gr.update())
for n in range(len(colors_fixed)):
visibilities[n] = gr.update(visible=True)
colors[n] = colors_fixed[n]
return [gr.update(visible=True), binary_matrixes, *visibilities, *colors]
def process_prompts(binary_matrixes, *seg_prompts):
return [gr.update(visible=True), gr.update(value=' , '.join(seg_prompts[:len(binary_matrixes)]))]
def process_example(layout_path, all_prompts, seed_):
all_prompts = all_prompts.split('***')
binary_matrixes = []
colors_fixed = []
im2arr = np.array(Image.open(layout_path))[:,:,:3]
unique, counts = np.unique(np.reshape(im2arr,(-1,3)), axis=0, return_counts=True)
sorted_idx = np.argsort(-counts)
binary_matrix = create_binary_matrix(im2arr, (0,0,0))
binary_matrixes.append(binary_matrix)
binary_matrix_ = np.repeat(np.expand_dims(binary_matrix, axis=(-1)), 3, axis=(-1))
colored_map = binary_matrix_*(255,255,255) + (1-binary_matrix_)*(50,50,50)
colors_fixed.append(gr.update(value=colored_map.astype(np.uint8)))
for i in range(len(all_prompts)-1):
r, g, b = unique[sorted_idx[i]]
if any(c != 255 for c in (r, g, b)) and any(c != 0 for c in (r, g, b)):
binary_matrix = create_binary_matrix(im2arr, (r,g,b))
binary_matrixes.append(binary_matrix)
binary_matrix_ = np.repeat(np.expand_dims(binary_matrix, axis=(-1)), 3, axis=(-1))
colored_map = binary_matrix_*(r,g,b) + (1-binary_matrix_)*(50,50,50)
colors_fixed.append(gr.update(value=colored_map.astype(np.uint8)))
visibilities = []
colors = []
prompts = []
for n in range(MAX_COLORS):
visibilities.append(gr.update(visible=False))
colors.append(gr.update())
prompts.append(gr.update())
for n in range(len(colors_fixed)):
visibilities[n] = gr.update(visible=True)
colors[n] = colors_fixed[n]
prompts[n] = all_prompts[n+1]
return [gr.update(visible=True), binary_matrixes, *visibilities, *colors, *prompts,
gr.update(visible=True), gr.update(value=all_prompts[0]), int(seed_)] |